Alvarion BMAX-6000 Telrad Manual

Transcription

BreezeMAX® PRO 6000
Product Manual
Release Number: 1.5
July 2012
P/N 216035
Document History
Document History
Changed Item
Description
This is the document’s first publication.
Accessing the Web
Management Interface
Section 3.2.1
Corrected IP addresses
Service Line
Section 9.4
Default for Enable DSCP spoofing is not
selected (DSCP spoofing disabled).
Date
May 2012
July 2012
Certain configuration rules are applicable only
when working with DSCP Spoofing enabled.
BreezeMAX PRO 6000 Product Manual
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Legal Rights
© Copyright 2012 Alvarion Ltd. All rights reserved.
The material contained herein is proprietary, privileged, and confidential and owned by Alvarion or its
third party licensors. No disclosure thereof shall be made to third parties without the express written
permission of Alvarion Ltd.
Alvarion Ltd. reserves the right to alter the equipment specifications and descriptions in this publication
without prior notice. No part of this publication shall be deemed to be part of any contract or warranty
unless specifically incorporated by reference into such contract or warranty.
Trade Names
Alvarion®, BreezeCOM®, WALKair®, WALKnet®, BreezeNET®, BreezeACCESS®, BreezeMAX®,
BreezeLITE®, 4Motion®, and/or other products and/or services referenced here in are either registered
trademarks, trademarks or service marks of Alvarion Ltd.
All other names are or may be the trademarks of their respective owners.
“WiMAX Forum” is a registered trademark of the WiMAX Forum. “WiMAX”, the WiMAX Forum logo,
“WiMAX Forum Certified”, and the WiMAX Forum Certified logo are trademarks of the WiMAX Forum.
Statement of Conditions
The information contained in this manual is subject to change without notice. Alvarion Ltd. shall not be
liable for errors contained herein or for incidental or consequential damages in connection with the
furnishing, performance, or use of this manual or equipment supplied with it.
Warranties and Disclaimers
All Alvarion Ltd. (“Alvarion”) products purchased from Alvarion or through any of Alvarion's authorized
resellers are subject to the following warranty and product liability terms and conditions.
Exclusive Warranty
(a) Alvarion warrants that the Product hardware it supplies and the tangible media on which any
software is installed, under normal use and conditions, will be free from significant defects in materials
and workmanship for a period of fourteen (14) months from the date of shipment of a given Product to
Purchaser (the “Warranty Period”). Alvarion will, at its sole option and as Purchaser's sole remedy, repair
or replace any defective Product in accordance with Alvarion' standard R&R procedure.
(b) With respect to the Firmware, Alvarion warrants the correct functionality according to the attached
documentation, for a period of fourteen (14) month from invoice date (the “Warranty Period”). During
the Warranty Period, Alvarion may release to its Customers firmware updates, which include additional
performance improvements and/or bug fixes, upon availability (the “Warranty”). Bug fixes, temporary
patches and/or workarounds may be supplied as Firmware updates.
Additional hardware, if required, to install or use Firmware updates must be purchased by the Customer.
Alvarion will be obligated to support solely the two (2) most recent Software major releases.
ALVARION SHALL NOT BE LIABLE UNDER THIS WARRANTY IF ITS TESTING AND EXAMINATION DISCLOSE
THAT THE ALLEGED DEFECT IN THE PRODUCT DOES NOT EXIST OR WAS CAUSED BY PURCHASER'S OR
ANY THIRD PERSON'S MISUSE, NEGLIGENCE, IMPROPER INSTALLATION OR IMPROPER TESTING,
UNAUTHORIZED ATTEMPTS TO REPAIR, OR ANY OTHER CAUSE BEYOND THE RANGE OF THE INTENDED
USE, OR BY ACCIDENT, FIRE, LIGHTNING OR OTHER HAZARD.
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Disclaimer
(a) THE SOFTWARE IS SOLD ON AN “AS IS” BASIS. ALVARION, ITS AFFILIATES OR ITS LICENSORS MAKE
NO WARRANTIES, WHATSOEVER, WHETHER EXPRESS OR IMPLIED, WITH RESPECT TO THE SOFTWARE
AND THE ACCOMPANYING DOCUMENTATION. ALVARION SPECIFICALLY DISCLAIMS ALL IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE AND
NON-INFRINGEMENT WITH RESPECT TO THE SOFTWARE. UNITS OF PRODUCT (INCLUDING ALL THE
SOFTWARE) DELIVERED TO PURCHASER HEREUNDER ARE NOT FAULT-TOLERANT AND ARE NOT
DESIGNED, MANUFACTURED OR INTENDED FOR USE OR RESALE IN APPLICATIONS WHERE THE
FAILURE, MALFUNCTION OR INACCURACY OF PRODUCTS CARRIES A RISK OF DEATH OR BODILY
INJURY OR SEVERE PHYSICAL OR ENVIRONMENTAL DAMAGE (“HIGH RISK ACTIVITIES”). HIGH RISK
ACTIVITIES MAY INCLUDE, BUT ARE NOT LIMITED TO, USE AS PART OF ON-LINE CONTROL SYSTEMS IN
HAZARDOUS ENVIRONMENTS REQUIRING FAIL-SAFE PERFORMANCE, SUCH AS IN THE OPERATION OF
NUCLEAR FACILITIES, AIRCRAFT NAVIGATION OR COMMUNICATION SYSTEMS, AIR TRAFFIC CONTROL,
LIFE SUPPORT MACHINES, WEAPONS SYSTEMS OR OTHER APPLICATIONS REPRESENTING A SIMILAR
DEGREE OF POTENTIAL HAZARD. ALVARION SPECIFICALLY DISCLAIMS ANY EXPRESS OR IMPLIED
WARRANTY OF FITNESS FOR HIGH RISK ACTIVITIES.
(b) PURCHASER'S SOLE REMEDY FOR BREACH OF THE EXPRESS WARRANTIES ABOVE SHALL BE
REPLACEMENT OR REFUND OF THE PURCHASE PRICE AS SPECIFIED ABOVE, AT ALVARION'S OPTION.
TO THE FULLEST EXTENT ALLOWED BY LAW, THE WARRANTIES AND REMEDIES SET FORTH IN THIS
AGREEMENT ARE EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES OR CONDITIONS, EXPRESS OR
IMPLIED, EITHER IN FACT OR BY OPERATION OF LAW, STATUTORY OR OTHERWISE, INCLUDING BUT
NOT LIMITED TO WARRANTIES, TERMS OR CONDITIONS OF MERCHANTABILITY, FITNESS FOR A
PARTICULAR PURPOSE, SATISFACTORY QUALITY, CORRESPONDENCE WITH DESCRIPTION,
NON-INFRINGEMENT, AND ACCURACY OF INFORMATION GENERATED. ALL OF WHICH ARE EXPRESSLY
DISCLAIMED. ALVARION' WARRANTIES HEREIN RUN ONLY TO PURCHASER, AND ARE NOT EXTENDED
TO ANY THIRD PARTIES. ALVARION NEITHER ASSUMES NOR AUTHORIZES ANY OTHER PERSON TO
ASSUME FOR IT ANY OTHER LIABILITY IN CONNECTION WITH THE SALE, INSTALLATION, MAINTENANCE
OR USE OF ITS PRODUCTS.
Limitation of Liability
(a) ALVARION SHALL NOT BE LIABLE TO THE PURCHASER OR TO ANY THIRD PARTY, FOR ANY LOSS OF
PROFITS, LOSS OF USE, INTERRUPTION OF BUSINESS OR FOR ANY INDIRECT, SPECIAL, INCIDENTAL,
PUNITIVE OR CONSEQUENTIAL DAMAGES OF ANY KIND, WHETHER ARISING UNDER BREACH OF
CONTRACT, TORT (INCLUDING NEGLIGENCE), STRICT LIABILITY OR OTHERWISE AND WHETHER BASED
ON THIS AGREEMENT OR OTHERWISE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
(b) TO THE EXTENT PERMITTED BY APPLICABLE LAW, IN NO EVENT SHALL THE LIABILITY FOR DAMAGES
HEREUNDER OF ALVARION OR ITS EMPLOYEES OR AGENTS EXCEED THE PURCHASE PRICE PAID FOR
THE PRODUCT BY PURCHASER, NOR SHALL THE AGGREGATE LIABILITY FOR DAMAGES TO ALL PARTIES
REGARDING ANY PRODUCT EXCEED THE PURCHASE PRICE PAID FOR THAT PRODUCT BY THAT PARTY
(EXCEPT IN THE CASE OF A BREACH OF A PARTY'S CONFIDENTIALITY OBLIGATIONS).
Federal Communication Commission (FCC) Interference Statement
This equipment has been tested and found to comply with RSS-192 and 197 of the Industry Canada
Rules. This equipment also complies with the limits for a class B digital device, pursuant to ETSI EN 301
489-1 and Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against
harmful interference in a residential installation. This equipment generates, uses and can radiate radio
frequency energy and, if not installed and used in accordance with the instructions, may cause harmful
interference to radio communications. However, there is no guarantee that interference will not occur in
a particular installation. If this equipment does cause harmful interference to radio or television
reception, which can be determined by turning the equipment off and on, the user is encouraged to try
to correct the interference by one of the following measures:
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 Reorient or relocate the receiving antenna.
 Increase the separation between the equipment and receiver.
 Connect the equipment into an outlet on a circuit different from that to which the receiver is
connected.
 Consult the dealer or an experienced radio/TV technician for help.
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: 
(1) This device may not cause harmful interference, and 
(2) this device must accept any interference received, including interference that may cause undesired
operation.
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment.
This equipment should be installed and operated with minimum distance 20cm between the radiator
and your body.
This transmitter must not be co-located or operating in conjunction with any other antenna or
transmitter.
Europe - EU Declaration of Conformity
This device complies with the essential requirements of the R&TTE Directive 1999/5/EC. The following
test methods have been applied in order to prove presumption of conformity with the essential
requirements of the R&TTE Directive 1999/5/EC:
 EN 60950-1:2006 + A11:2009 + A1:2010 + A12: 2011
 EN 302 326-2 V1.2.2: 2007
 EN 302 326-3 V1.3.1 : 2008
 EN50385 : 2002
 EN 301 489-1 V1.8.1 (2008-04)
 EN 301 489-4 V1.4.1: 2009
Industry Canada Statement
This device complies with RSS-192 & RSS-197 of the Industry Canada Rules. Operation is subject to the
following two conditions:
1) This device may not cause harmful interference, and
2) this device must accept any interference received, including interference that may cause undesired
operation.
Ce dispositif est conforme à la norme CNR-192 & CNR-197 d'Industrie Canada applicable aux appareils
radio exempts de licence. Son fonctionnement est sujet aux deux conditions suivantes: (1) le dispositif ne
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doit pas produire de brouillage préjudiciable, et (2) ce dispositif doit accepter tout brouillage reçu, y
compris un brouillage susceptible de provoquer un fonctionnement indésirable.
NOTE!
Radiation Exposure Statement:
This equipment complies with Canada radiation exposure limits set forth for an uncontrolled environment. This
equipment should be installed and operated with minimum distance 60 cm between the radiator & your body.
Français
Pour l'utilisation de dispositifs mobiles
Déclaration d'exposition aux radiations:
Cet équipement est conforme aux limites d'exposition aux rayonnements IC établies pour un environnement non
contrôlé. Cet équipement doit être installé et utilisé avec un minimum de 60 cm de distance entre la source de
rayonnement et votre corps.
Safety Considerations - General
For the following safety considerations, “Instrument” means the BreezeMAX units' components and
their cables.
Caution
To avoid electrical shock, do not perform any servicing unless you are qualified to do so.
Line Voltage
Before connecting this instrument to the power line, make sure that the voltage of the power source
matches the requirements of the instrument.
Radio
The instrument transmits radio energy during normal operation. To avoid possible harmful exposure to
this energy, do not stand or work for extended periods of time in front of its antenna. The long-term
characteristics or the possible physiological effects of radio frequency electromagnetic fields have not
been yet fully investigated.
Outdoor Units and Antennas Installation and Grounding
Ensure that outdoor units, antennas and supporting structures are properly installed to eliminate any
physical hazard to either people or property. Make sure that the installation of the outdoor unit, antenna
and cables is performed in accordance with all relevant national and local building and safety codes.
Even where grounding is not mandatory according to applicable regulation and national codes, it is
highly recommended to ensure that the outdoor unit and the antenna mast (when using external
antenna) are grounded and suitable lightning protection devices are used so as to provide protection
against voltage surges and static charges. In any event, Alvarion is not liable for any injury, damage or
regulation violations associated with or caused by installation, grounding or lightning protection.
Outdoor Units Environmental Evaluation and Exposure Limit
According to FCC part 1, 1.1307, 1.1310:
The limit for power density for general population/uncontrolled exposure is 1(mW/cm2) or 10 (W/m2).
The power density calculation is S = (Pt*DC /4 r2)
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Where:
»
Pt - The average transmitted power (EIRP) (mW)
»
r - The distance from the unit. (cm)
»
DC -maximum transmitter duty-cycle
The limit 1(mW/cm2) can be calculated from the above based on the following data:
»
Pt- the transmitted power which is equal to the output power 27dBm plus internal antenna gain
15 dBi and 30% Duty-cycle.
»
The maximum average EIRP = 36.8 dBm = 4755 mW
»
Maximum allowed distance “r”, where RF exposure limit may not be exceeded, = SQRT(4755/4).
This distance is at least 19.45 cm from the antenna (for the installer). For the public this distance
is 50 cm.
Disposal of Electronic and Electrical Waste
Disposal of Electronic and Electrical Waste
Pursuant to the WEEE EU Directive electronic and electrical waste must not be disposed of with unsorted waste.
Please contact your local recycling authority for disposal of this product.
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Important Notice
Important Notice
This user manual is delivered subject to the following conditions and restrictions:
 This manual contains proprietary information belonging to Alvarion Ltd. Such information is supplied
solely for the purpose of assisting properly authorized users of the respective Alvarion products.
 No part of its contents may be used for any other purpose, disclosed to any person or firm or
reproduced by any means, electronic and mechanical, without the express prior written permission of
Alvarion Ltd.
 The text and graphics are for the purpose of illustration and reference only. The specifications on
which they are based are subject to change without notice.
 The software described in this document is furnished under a license. The software may be used or
copied only in accordance with the terms of that license.
 Information in this document is subject to change without notice. Corporate and individual names
and data used in examples herein are fictitious unless otherwise noted.
 Alvarion Ltd. reserves the right to alter the equipment specifications and descriptions in this
publication without prior notice. No part of this publication shall be deemed to be part of any
contract or warranty unless specifically incorporated by reference into such contract or warranty.
 The information contained herein is merely descriptive in nature, and does not constitute an offer for
the sale of the product described herein.
 Any changes or modifications of equipment, including opening of the equipment not expressly
approved by Alvarion Ltd. will void equipment warranty and any repair thereafter shall be charged for.
It could also void the user's authority to operate the equipment.
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About This Manual
About This Manual
This document describes and explains how to install and manage the BreezeMAX PRO 6000 CPE. .
This document contains the following chapters:
This manual is intended for operators responsible for installing, setting and operating the system, and
for system administrators and product experts responsible for managing the system.
This manual contains the following chapters and appendices:
 Chapter 1 - Product Description - Describes the BreezeMAX PRO 6000 unit and its functionality.
 Chapter 2 - CPE Installation - Describes how to install the BreezeMAX PRO 6000 and how to connect
to subscriber’s equipment.
 Chapter 3 - Commissioning - Describes how to initially configure the BreezeMAX PRO 6000 in order
to test basic link operation.
 Chapter 4 - Configuring Setup Parameters - Describes how to configure general parameters of the
BreezeMAX PRO 6000.
 Chapter 5 - Configuring Local Address Parameters - Describes how to configure DHCP server and
leasing parameters.
 Chapter 6 - Setting Advanced Parameters - Describes how to configure advanced parameters, such
as: Authentication, security, Firewall, filters, and port forwarding/triggering parameters.
 Chapter 7 - Displaying Status Details - Describes how to view and understand the device status
parameters.
 Chapter 8 - Configuring Telephony Parameters - Describes how to configure VoIP parameters
 Chapter 9- Engineering (for Operator only)
 Glossary - Terms used in this manual.
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Contents
Contents
Chapter 1 - Product Description............................................................................. 1
1.1 Introducing the BreezeMAX PRO 6000...................................................................2
1.2 BreezeMAX PRO 6000 CPE Specifications ..............................................................3
1.2.1 General ................................................................................................................. 3
1.2.2 WiMAX Radio......................................................................................................... 3
1.2.3 Power Specification .............................................................................................. 5
1.2.4 Environmental Specifications................................................................................ 5
1.2.5 Regulatory Specifications ..................................................................................... 5
1.2.6 Reliability Specifications ....................................................................................... 6
Chapter 2 - Installation ......................................................................................... 7
2.1 Installation Requirements ....................................................................................8
2.1.1 Package Content................................................................................................... 8
2.1.2 Additional Installation Requirements.................................................................... 8
2.1.3 Guidelines for Positioning the ODU ...................................................................... 9
2.1.4 IDU-ODU Cables .................................................................................................... 9
2.2 Pole Mounting the ODU ......................................................................................11
2.2.1 Pole Mounting the ODU ...................................................................................... 11
2.3 Connecting the ODU Cables ................................................................................13
2.3.1 The PRO 6000 CPE Connectors ........................................................................... 13
2.3.2 Connecting the Grounding Cable ........................................................................ 14
2.3.3 Connecting and Sealing the IDU-ODU PoE Cable ................................................ 14
2.3.4 Installing the Power Injector IDU ........................................................................ 16
2.4 Checking for Proper Operation ...........................................................................19
Chapter 3 - Commissioning .................................................................................. 21
3.1 Introduction.......................................................................................................22
3.2 Configuring the Unit Using the Web Management Interface.................................23
3.2.1 Accessing the Web Management Interface ........................................................ 23
Contents
3.2.2 Applying Changes and Using Help....................................................................... 25
3.3 Configuring the Unit Using the WiMAX Modem Application CD.............................26
3.4 Configuring the CPE Using the IPKG Upgrade .......................................................30
3.5 Creating a Default Configuration File ..................................................................31
3.6 Operation Verification........................................................................................34
Chapter 4 - Configuring Setup Parameters ........................................................... 35
4.1 Introduction.......................................................................................................36
4.2 Setting Basic Parameters....................................................................................37
4.3 Setting Password ...............................................................................................40
4.4 Setting Device Time Zone ...................................................................................41
4.5 Setting Device Name ..........................................................................................42
4.6 Restore to Factory Default Configuration ...........................................................43
Chapter 5 - Configuring Local Address Parameters ............................................... 44
5.1 Introduction.......................................................................................................45
5.2 DHCP Server .......................................................................................................46
5.3 Lease Status ......................................................................................................47
5.4 Lease Reservation ..............................................................................................48
Chapter 6 - Setting Advanced Parameters ............................................................ 49
6.1 Introduction.......................................................................................................50
6.2 Authentication ...................................................................................................51
6.3 Security .............................................................................................................53
6.4 Firewall ..............................................................................................................55
6.5 MAC Filter ..........................................................................................................57
6.6 IP Filter ..............................................................................................................58
6.7 Port Forwarding/Trigger ......................................................................................59
6.7.1 Port Forwarding .................................................................................................. 59
Contents
6.7.2 Port Trigger ......................................................................................................... 60
6.8 Dynamic DNS .....................................................................................................62
Chapter 7 - Displaying Status Details ................................................................... 63
7.1 Introduction.......................................................................................................64
7.2 Device Status .....................................................................................................65
7.3 WiMAX Status ....................................................................................................67
7.4 Software Status .................................................................................................72
7.5 Telephony Status ...............................................................................................73
7.6 Certificate Status ...............................................................................................74
7.7 About ................................................................................................................76
Chapter 8 - Configuring Telephony Parameters .................................................... 77
8.1 Introduction.......................................................................................................78
8.2 VoIP Parameters.................................................................................................79
Chapter 9 - Engineering ....................................................................................... 81
9.1 Introduction.......................................................................................................82
9.2 WiMAX Configuration .........................................................................................83
9.3 VoIP Configuration .............................................................................................87
9.4 Service Line........................................................................................................96
9.5 Device Configuration ........................................................................................100
9.6 DM (Device Management) Settings ...................................................................101
9.6.1 TR-069 .............................................................................................................. 101
9.6.2 OMA Device Management Parameters.............................................................. 102
9.7 Function Settings .............................................................................................106
9.8 UI Settings .......................................................................................................107
Figures
Figures
Figure 1-1: BreezeMAX PRO 6000................................................................................................... 2
Figure 2-1: Mounting the ODU on the Pole .................................................................................. 11
Figure 2-2: ODU Pole Installation Using the Tilt Accessory, Vertical Polarization......................... 12
Figure 2-3: CPE Connections ......................................................................................................... 13
Figure 2-4: Rear View of the ODU ................................................................................................ 14
Figure 2-5: Ethernet Connector Pin Assignments ......................................................................... 15
Figure 2-6: Inserting the Cable into the Sealing Cap .................................................................... 15
Figure 2-7: Sealing Gland Fastening Tool...................................................................................... 16
Figure 2-8: Cold Shrink Tubing...................................................................................................... 16
Figure 2-9: IDU-ODU PoE port (“TO/FROM ODU PoE (RJ45)”) ....................................................... 17
Figure 2-10: Data Equipment and Telephone Ports...................................................................... 18
Figure 2-11: LEDs.......................................................................................................................... 20
Figure 3-1: Login Window ............................................................................................................. 23
Figure 3-2: Main Window (Device Status)..................................................................................... 24
Figure 3-3: Installation Setup Wizard Window.............................................................................. 26
Figure 3-4: Choose Your ISP Window............................................................................................ 27
Figure 3-5: Ready To Install Window ............................................................................................ 27
Figure 3-6: Installing Window ....................................................................................................... 28
Figure 3-7: Installation Succeeded ............................................................................................... 28
Figure 3-8: Installation Complete ................................................................................................. 29
Figure 3-9: Status - Software Page .............................................................................................. 30
Figure 3-10: Engineering - Dev Config Page ................................................................................. 31
Figure 3-11: Generate IPKG Tool .................................................................................................. 32
Figure 3-12: Generation Results ................................................................................................... 33
Figure 4-1: Setup - Basic Parameters ........................................................................................... 37
Figure 4-2: Setup - Password ....................................................................................................... 40
Figure 4-3: Setup - Device Time.................................................................................................... 41
Figures
Figure 4-4: Setup - Device Name .................................................................................................. 42
Figure 4-5: Setup - Restore to Factory Warning........................................................................... 43
Figure 5-1: DHCP Server................................................................................................................ 46
Figure 5-2: Lease Status ............................................................................................................... 47
Figure 5-3: Lease Reservation ...................................................................................................... 48
Figure 6-1: Advanced - Authentication......................................................................................... 51
Figure 6-2: Advanced - Security.................................................................................................... 53
Figure 6-3: Advance - Firewall ...................................................................................................... 55
Figure 6-4: Advance - MAC Filter .................................................................................................. 57
Figure 6-5: Advance - IP Filter....................................................................................................... 58
Figure 6-6: Advance - Port Forwarding ......................................................................................... 59
Figure 6-7: Advance - Port Trigger................................................................................................ 60
Figure 6-8: Advanced - Dynamic DNS ........................................................................................... 62
Figure 7-1: Status - Device Status ................................................................................................ 65
Figure 7-2: Status - WiMAX Status ............................................................................................... 67
Figure 7-3: Status - Software ....................................................................................................... 72
Figure 7-4: Status - Telephony Status .......................................................................................... 73
Figure 7-5: Status - Certificate ..................................................................................................... 74
Figure 7-6: Status - About ............................................................................................................ 76
Figure 8-1: Telephony - VoIP Parameters ..................................................................................... 79
Figure 9-1: Engineering - WMAX Config. ....................................................................................... 83
Figure 9-2: Engineering - VoIP ...................................................................................................... 87
Figure 9-3: Engineering - VoIP (continued) ................................................................................... 88
Figure 9-4: Engineering - Service Line (ETHCS and IP-CS) ............................................................. 97
Figure 9-5: Engineering - DEV Config. ......................................................................................... 100
Figure 9-6: Engineering - DM Settings (TR-069) ......................................................................... 101
Figure 9-7: Engineering - DM Settings (OMA) ............................................................................. 103
Figure 9-8: Engineering - Function Settings ............................................................................... 106
Figure 9-9: Engineering - UI Settings .......................................................................................... 107
Tables
Tables
Table 1-1: PRO 6000 CPE General Specifications ............................................................................ 3
Table 1-2: PRO 6000 CPE WiMAX Radio Specifications ................................................................... 3
Table 1-3: PRO 6000 CPE Power Specification................................................................................ 5
Table 1-4: PRO 6000 CPE Environmental Specifications ................................................................. 5
Table 1-5: PRO 6000 CPE Regulatory Specifications....................................................................... 5
Table 1-6: PRO 6000 CPE Reliability Specifications......................................................................... 6
Table 2-1: Approved Category 5E Ethernet Cables ....................................................................... 10
Table 2-2: LED Functionality ......................................................................................................... 19
Table 3-1: Basic Parameters ......................................................................................................... 22
Table 4-1: Basic Parameters ......................................................................................................... 37
Table 7-1: Device Status Parameters............................................................................................ 65
Table 7-2: WiMAX System Parameters.......................................................................................... 68
Table 9-1: WMAX Config. Settings ................................................................................................ 84
Table 9-2: VoIP Settings................................................................................................................ 89
Table 9-3: Service Line Parameters............................................................................................... 98
Table 9-4: DM Settings - TR-069................................................................................................. 101
Table 9-5: DM Settings - OMA .................................................................................................... 103
Table 9-6: Function Settings....................................................................................................... 106
Table 9-7: UI Settings Parameters .............................................................................................. 107
Chapter 1 - Product Description
In This Chapter:
 “Introducing the BreezeMAX PRO 6000” on page 2
 “BreezeMAX PRO 6000 CPE Specifications” on page 3
Chapter 1 - Product DescriptionIntroducing the BreezeMAX PRO 6000
Introducing the BreezeMAX PRO 6000
1.1
Introducing the BreezeMAX PRO 6000
The PRO 6000 CPE comprises an Outdoor Unit (ODU) and an Indoor Unit (IDU).
The ODU includes the modem, radio, data processing, management and voice gateway components of
the Subscriber Unit (SU). It also includes an integral high-gain flat antenna. The ODU connects to the IDU
and to the user's equipment through a 10/100 BaseT Ethernet port.
The IDU is powered from the mains and connects to the ODU via a Category 5E Ethernet cable carrying
the Ethernet data between the two units, as well as power (56 VDC) and control signals to the ODU and
status indications from the ODU.
IDU
ODU
Figure 1-1: BreezeMAX PRO 6000
2
Chapter 1 - Product DescriptionBreezeMAX PRO 6000 CPE Specifications
BreezeMAX PRO 6000 CPE Specifications
1.2
1.2.1
General
Table 1-1: PRO 6000 CPE General Specifications
Feature
Description
Flash ROM
32MB
Ethernet LAN port
One RJ-45 port
10/100 auto-sensing, auto-MDX
Channel Step Size
In 250 kHz steps
POTS
One RJ-11
Power supply
Input: Universal range 100~240VAC
Output: 56 VDC
Frequency: 50Hz to 60Hz
Current: 0.8A
1.2.2
WiMAX SoC
BCS5350 and Dual Core 300MHz
RF IC
BCSR-200 / Dual Band 1T/2R RFIC
RAM
64MB
WiMAX Radio
Table 1-2: PRO 6000 CPE WiMAX Radio Specifications
Item
Description
Radio Type
IEEE 802.16e 2005 WAVE 2
Frequency Band
3.3 - 3.7 GHz 
(range will be increased to 3.3 - 3.8 GHz in future release)
Antenna Type
Two WiMAX antennas
Channel Bandwidth
5.00, 7.00, and 10.00 MHz
Modulation Technique
 Scaleable OFDMA employing Time-Division Duplex (TDD)
mechanism
 PRBS subcarrier randomization
 Contains pilot, preamble, and ranging modulation
3
Table 1-2: PRO 6000 CPE WiMAX Radio Specifications
Item
Description
FEC Coding Rates
 Up Link and Down Link: QPSK, 16 QAM, 64 QAM
 QPSK and 16QAM - 1/2 and 3/4
 64QAM - 1/2, 2/3, 3/4, 5/6
TPL (Transmit Power Level)
27 dBm typical (maximum)
Channel Step Size
In 250 kHz steps
Synchronization
Referenced to the WiMAX BTS Timing Module
Frequency Accuracy
MRCT Compliant
Air Interface
IEEE 802.16e Wireless MAN-OFDMA
TDD Duty Cycle (Tx/Rx)
Rx up to 75% , Tx up to 50%
SISO or MIMO
MIMO (1TX, 2RX)
Regulatory Compliance
 FCC parts 15, 25, 27, 90
 RSS 192, 197
Frame Duration
5 msec.
RF Transmitter Specifications
RF dynamic range
45dB minimum
Transmit Power Control Relative
Accuracy
mRCT compliant
Transmit and Receive Switching Gap
50 S
RF Receiver Specifications
Impedance
50 ohms nominal
Input return loss
10dBi
RX Sensitivity
Typical 3dB better than mRCT in SISO mode, and 6 dB better
in MRC or MIMO mode. -94.5 dBm maximum.
Adjacent Channel Rejection
4 dB min.
Receive signal 64QAM-3/4, 3dB above sensitivity level.
Non-Adjacent Channel Rejection
23 dB min
Receive signal 64QAM-3/4, 3dB above sensitivity level.
Antenna Specifications
Antenna Gain
Typical 15 dBi
Antenna Connectors
None. Embedded IPEX
4
1.2.3
Power Specification
Table 1-3: PRO 6000 CPE Power Specification
1.2.4
Item
Details
Power Consumptions
Outdoor CPE: 16W Maximum
Power Adapter
Input of 100 VAC - 240 VAC 50 Hz to 60 Hz
Power over Ethernet
56 VDC
Environmental Specifications
Table 1-4: PRO 6000 CPE Environmental Specifications
1.2.5
Item
Details
Operating Temperature
-40°C ~ 60°C
Storage Temperature
-40°C ~ 70°C
Operating and Storage Humidity
5% - 95%
Regulatory Specifications
Standards for all frequency bands:
Table 1-5: PRO 6000 CPE Regulatory Specifications
Standard
Specification
Applicable to
FCC
Part 15
ODU
Part 90, Subpart Z
ETSI
ETSI EN 302 326
ODU
WiMAX
IEEE-802.16-2005.
ODU
Environmental
ETSI 300 019-2-4 Class T4.1E
ODU
ETSI 300 019-2-3 Class T3.2.
PoE (+PS)
ETSI 300 019-2-2 Class T2.3.
System
Transportation & Storage
ETSI 300 019-2-1 Class T1.2.
EU EMC
ETSI EN 301 489-1/4
System
US EMC
FCC part 15 Subpart B (Emission test)
System
Immunity
Surge (Lightning protection), ITU-T K.21
System
5
Table 1-5: PRO 6000 CPE Regulatory Specifications
Standard
Specification
Applicable to
Safety
UL/CUL 60950-1 (USA+Canada)
System
EN60950 (Europe)
IEC-60950-1
AS-3260 (Australia)
Canadian standards
IC RSS-192 – 3450-3650MHz
ODU
SRSP-303.4 Issue 3 - 3475-3650 MHz
IC RSS-197 - 3650-3700 MHz
SRSP-303.65 Issue 1
ICES-003 - Digital Apparatus
1.2.6
Reliability Specifications
Table 1-6: PRO 6000 CPE Reliability Specifications
Item
Details
MTBF
The MTBF for CPE is not less than 300,000 hours.
6
Chapter 2 - Installation
In This Chapter:
 “Installation Requirements” on page 8
 “Pole Mounting the ODU” on page 11
 “Connecting the ODU Cables” on page 13
 “Checking for Proper Operation” on page 19
Chapter 2 - InstallationInstallation Requirements
2.1
Installation Requirements
The BreezeMAX PRO 6000 CPE is installed by the operator's installation technicians.
CAUTION
ONLY experienced installation professionals who are familiar with local building and safety codes and,
wherever applicable, are licensed by the appropriate government regulatory authorities should install
outdoor units and antennas.
Failure to do so may void the product warranty and may expose the end user or Service Provider to
legal and financial liabilities. Alvarion and its resellers or distributors are not liable for injury, damage or
regulation violations associated with the installation of Outdoor Units or antennas.
Français
SEULS les installateurs professionnels expérimentés qui sont familiers avec les codes locaux des
bâtiments et de la sécurité et, lorsque cela s'applique, qui sont autorisés par les autorités
gouvernementales de régulation, doivent installer les unités extérieures et les antennes. Le non-respect
de cette clause peut invalider la garantie du produit et exposer l'utilisateur final ou le prestataire de
services à des responsabilités légales et financières. Le fabricant et ses revendeurs ou distributeurs ne
sont pas responsables pour toute blessure, dommage ou violation de la réglementation associée à
l'installation d'unités extérieures ou d'antennes.
Italiano
ATTENZIONE: SOLO professionisti esperti che hanno familiarità con le norme di costruzione locali e coi
codici di sicurezza e, ove applicabile, sono autorizzati dalle autorità governative competenti possono
installare unità esterne ed antenne. Assicurarsi che le unità esterne, antenne e strutture di supporto
siano installate correttamente per eliminare ogni pericolo fisico a persone o cose. In caso contrario, ciò
può invalidare la garanzia del prodotto e può esporre l'utente finale o il fornitore di servizi a
responsabilità legali ed economiche. Anche quando la messa a terra non è obbligatoria in base alla
normativa regolatoria applicabile e ai codici nazionali, è obbligatorio garantire che l'unità esterna e il
palo dell'antenna siano messi a terra e idonei dispositivi di protezione contro i fulmini siano utilizzati in
modo da fornire protezione contro le sovratensioni e le scariche statiche. In ogni caso, il Fornitore e i
suoi rivenditori non sono responsabili per eventuali danni fisici, danni ad oggetti o violazioni del
regolamento associati con o causati dall' installazione, la messa a terra o di protezione contro i fulmini.
2.1.1
Package Content
Make sure that each package contains the items listed below:
 BreezeMAX PRO 6000 Outdoor Unit (ODU)
 Indoor power supply unit (IDU) Power Over Ethernet 802.3af compliant
 Crossed Ethernet cable with two RJ-45 connectors for connecting the IDU power injector to a
PC/HUB/switch.
 Pole mounting kit
 Optional - Tilt Accessory kit (ordered separately)
 Quick Installation Guide
2.1.2
Additional Installation Requirements
 Indoor-to-outdoor Category 5E PoE Ethernet cable with two shielded RJ-45 connectors* and an RJ-45
connectors crimping tool. For details on approved cables and maximum length, refer to Section 2.1.4.
8
 Mains plug adapter or termination plug (if the power plug on the supplied AC power cord does not
fit local power outlets).
 Grounding cable with an appropriate termination
 Sealing gland fastening tool*
 Installation tools and materials
 Sealing materials: mastic tape (Scotchfil™ Electrical Insulation Putty), Cold Shrink sealing kit.
INFORMATION
Items marked with an asterisk (*) are available from Alvarion.
2.1.3
Guidelines for Positioning the ODU
This section provides guidelines for selecting the optimal installation locations for the ODU.
Select the optimal locations for the equipment using the following guidelines:
 The ODU should be mounted on a 1"- 4" pole. Its location should enable easy access to the unit and
its connectors for installation and testing.
 Place the ODU as high as possible to achieve the best possible link quality.
 Place the ODU away from power and telephone lines.
 Avoid placing the ODU too close to any metallic reflective surfaces.
 Be sure to ground the ODU with an appropriate grounding wire (not included) by attaching it to the
grounding screw on the unit and to a good ground connection.
 An optional Tilt accessory for the ODU providing a tilt range of ±15° is available from Alvarion. The tilt
option might be necessary to either improve the link conditions or, if the ODU is too close to the BTS,
to reduce the receive signals strength. As a rule of thumb, if the ODU is located at a distance of less
than 300 meters from the BTS, it is recommended to up-tilt the antenna by approximately 10° to 15°
(especially in line-of-sight conditions) to avoid saturation of the receivers by too strong signals.
2.1.4
INFORMATION
IDU-ODU Cables
The length of the Indoor-to-Outdoor cable should not exceed 90 meters. The length of the
Indoor-to-Outdoor cable, together with the length of the Ethernet cable connecting the CPE-IDU-1D to
the data equipment, should not exceed 100 meters.
Use only Category 5E PoE Ethernet cables from either Alvarion or any of the approved manufacturers,
listed in Table 2-1 below. Consult with Alvarion's specialists on the suitability of other cables.
9
Table 2-1: Approved Category 5E Ethernet Cables
Manufacturer
Part Number
UNIXTAR 
www.unixtar.com.tw
C5ES4P24
WESTERN
www.westernwire.org
KF804E1D
In case of missing information in the manufacturer's WEB site (product specifications, ordering issues,
etc.), it is highly recommended to contact the manufacturer's sales representative directly.
10
Chapter 2 - InstallationPole Mounting the ODU
2.2
Pole Mounting the ODU
2.2.1
The ODU can be mounted on a 1" to 4" pole using one of the following options:
 A pole mounting kit is supplied with each unit. The kit includes a special clamp and a pair of threaded
rods, flat washers, spring washers and nuts. There are two pairs of threaded holes on the back of the
unit, enabling to use the mounting kit for installing the unit using either vertical or horizontal
polarization. The clamp enables installing the unit on diverse pole diameters from 1" to 4".
 A Tilt Pole Mounting kit, providing a tilt range of +/-15° is available from Alvarion. The Tilt kit can be
attached to the ODU and be mounted on a 1" to 4" pole using two 9/16" wide metal bands.
To mount the ODU using the clamp:
1 Thread the M10*100 mm bolt through the M10 spring washer, M10 nut, and the bracket holes.
2 With the connector facing downward, attach the ODU to a 1"- 4" pole.
3 Attach the bracket to the other side of the pole.
4 Thread the M10*100 mm bolts through both holes on either side. Tighten the nuts.
Pole-Mount Bracket
Weather Proof Sealing Glands
M10*100 Bolts and spring
washers
Figure 2-1: Mounting the ODU on the Pole
11
Chapter 2 - InstallationPole Mounting the ODU
to mount the ODU using the Tilt accessory:
1 Attach the Tilt accessory to the ODU using the two pairs of flat washers, spring washers and nuts
supplied in the Tilt kit.
2 Mount the Tilt accessory on a 1" to 4" pole using two 9/16" metal bands.
3 Slightly release the Tilt Control Screw, tilt the ODU downward/upward as required, and re-tighten the
screw.
Tilt Accessory
Tilt Control Screw
Figure 2-2: ODU Pole Installation Using the Tilt Accessory, Vertical Polarization
12
Chapter 2 - InstallationConnecting the ODU Cables
2.3
Connecting the ODU Cables
2.3.1
The PRO 6000 CPE Connectors
The PRO 6000 CPE has the following connectors:
 One RJ-45 connector for connecting to the power injector indoor unit (ODU PoE
).
 One Indoor /Outdoor connector (connects to GPS or used for distribution automation) (I / O, currently
not applicable)
 A grounding screw on the rear panel.
The following figure illustrates the CPE connections:
Input/Output serial
console (debug or
distribution automation
ODU PoE
LEDs
ODU
CAT 5 Ethernet cable
IDU
Figure 2-3: CPE Connections
13
2.3.2
Connecting the Grounding Cable
The Grounding screw (marked
) is located on the rear panel of the ODU.
Grounding
Figure 2-4: Rear View of the ODU
To connect the grounding cable:
1 Connect one end of a grounding cable to the grounding screw and tighten the grounding screw
firmly.
2 Connect the other end of the grounding cable to a good ground (earth) connection.
2.3.3
CAUTION
Connecting and Sealing the IDU-ODU PoE Cable
Use only Category 5E 4x2x24# FTP outdoor cables from an approved manufacturer. See list of approved
cables in Table 2-1.The length of the Indoor-to-Outdoor cable should not exceed 90 meters. The length
of the Indoor-to-Outdoor cable, together with the length of the Ethernet cable connecting the IDU to
the data equipment, should not exceed 100 meters.
To prepare the IDU-ODU cable:
Use a crimp tool for RJ-45 connectors to prepare the wires. Insert them into the appropriate pins and use
the tool to crimp the connector. Make sure to do the following:
 Remove as small a length as possible of the external jacket. Verify that the external jacket is well
inside the sealing cover when connected to the unit, to ensure good sealing.
 Pull back the shield drain wire before inserting the cable into the RJ-45 connector to ensure a good
connection with the connector's shield after crimping.
The IDU-ODU cable provides pin-to-pin connection on both ends.
14
The following figure shows the required wire pair connections. The color codes used in standard cables
supplied by Alvarion are as listed in the table.
Wire color
Pin
Blue
1
Blue/white
2
Orange
3
Orange/white
6
Brown
4
Brown/white
5
Green
7
Green/white
8
Figure 2-5: Ethernet Connector Pin Assignments
To connect and seal the IDU-ODU cable:
1 Remove the sealing gland plug from the gland nut.
2 Open the sealing gland nut and remove it. Do not disassemble the gland base from the bracket.
3 Insert the cable into the sealing gland base and connect it to the RJ-45 connector at the bottom of
the CPE, labeled
. Make sure that the connector is completely inserted and tightened.
4 Insert the rubber bushing on the cable into the gland base.
Sealing Gland base
Rubber Bushing
Sealing Gland Nut
Figure 2-6: Inserting the Cable into the Sealing Cap
15
5 Tighten the gland nut. Use the dedicated tool for fastening the sealing glands.
Figure 2-7: Sealing Gland Fastening Tool
6 Attach the mastic tape (Scotchfil™ Electrical Insulation Putty) and wrap it around the connector
butting up against the connector. Do not over stretch.
7 Squeeze to tighten the mastic sealer. Make sure there are no air bubbles.
8 Slide the cold shrink sleeve on top of the connector. Make sure that the sleeve covers both cable
connector and unit connector.
Cold Shrink Sleeve
Cold Shrink Seal
Cord
Figure 2-8: Cold Shrink Tubing
9 Pull the cord slowly to shrink the sleeve.
10 Route the cable to the location selected for the indoor equipment.
11 Assemble an RJ-45 connector with a protective cover on the indoor end of the IDU-ODU cable. Refer
to the pin assignment and color codes in standard cables described above.
2.3.4
Installing the Power Injector IDU
The unit can be placed on a desktop or a shelf, or it may be wall-mounted.
16
INFORMATION
The length of the Ethernet cable connecting CPE to the user's equipment, together with the length of
the IDU-ODU cable, should not exceed 100 meters.
To install and connect the Power Injector IDU:
1 It is assumed that the IDU-ODU cable is already connected to the ODU. Assemble an RJ-45 connector
with a protective cover on the indoor end of the IDU-ODU cable. Refer to Section 2.3.3 for
instructions on preparing the cable.
2 Connect the IDU-ODU cable to the single port, labled “TO/FROM ODU PoE (RJ45)” (Figure 2-9).
Figure 2-9: IDU-ODU PoE port (“TO/FROM ODU PoE (RJ45)”)
3 Connect one end of the supplied Ethernet cable to a PC/Hub/Switch.
4 Connect the other end of the Ethernet cable to the RJ-45 IDU port, labled with a computer illustration
(see Figure 2-10).
5 Use a telephone cable to connect a phone to the RJ-11 IDU port labled with a telephone illustration
(see Figure 2-10).
6 Connect the indoor unit to the AC mains using the power cable supplied with the unit.
17
To
PC/Hub/Switch
(RJ-45)
To Phone
(RJ-11)
Figure 2-10: Data Equipment and Telephone Ports
CAUTION
Do not connect the data equipment to the PoE port on the IDU, as it supplies DC power to the ODU,
and this may harm other equipment connected to it.
18
Chapter 2 - InstallationChecking for Proper Operation
2.4
Checking for Proper Operation
1 Verify data connectivity by sending a ping command to the BTS or by connecting to the Internet.
2 Check the LED functionality according to the following table:
Table 2-2: LED Functionality
Description
Color
Functionality
Fault + Eth indication LED
Red
 Lights at start up
 During the built-in test (BIT) blinks (300ms on,
300ms off).
 Off/On - If BIT finished successfully. If BIT is
failed it will continue lightning.
 On - If fatal error/critical alarm appears during
run time.
 Blinking - If PoE Eth connected and no errors
found (1sec on, 3sec off).
WiMax W/L link availability
LED
Green
 Lights at start up
 Off - upon BIT completion
 Blinking - the CPE is synchronized to the BS
and 5>SNR  3dB.
 On - when the CPE is synchronized to the BS
and the SNR 5dB
3 x WiMax link signal
strength LEDs
Green
 Lights at start up.
 Off - upon BIT completion
Signal strength display:
 LED1 blinks when 12>SNR8dB
 LED1 lights when SNR12dB
 LED2 blinks when 18>SNR15dB
 LED 2 lights when SNR18dB
 LED3 (right side) blinks when 25>SNR20dB
 LED3 (right side) lights when SNR25dB
19
Chapter 2 - InstallationChecking for Proper Operation
WiMax W/L link
availability (green)
Fault + Eth indication (red)
3 x WiMax link signal
strength (green)
Figure 2-11: LEDs
20
Chapter 3 - Commissioning
zzAlvarion_ page
In This Chapter:
 “Introduction” on page 22
 “Configuring the Unit Using the Web Management Interface” on page 23
 “Configuring the Unit Using the WiMAX Modem Application CD” on page 26
 “Configuring the CPE Using the IPKG Upgrade” on page 30
 “Creating a Default Configuration File” on page 31
 “Operation Verification” on page 34
Chapter 3 - CommissioningIntroduction
3.1
Introduction
Introduction
After completing the installation process, as described in the preceding chapter, several actions should
be performed to ensure connectivity with a base station (BS) and provisioning of services. After the
subscriber unit is connected with a BS, it can be fully managed via the wireless link:
1 The basic parameters must be configured to ensure that the unit operates correctly and can
communicate with a BS.
2 Proper operation should be verified, including data connectivity.
3 The unit must be positioned correctly to ensure optimal performance of the wireless link.
The following methods are available for configuring the unit:
 The web-based management interface - accessed using a PC/Notebook with a web browser (see
“Configuring the Unit Using the Web Management Interface” on page 23).
 An automatic configuration tool provided on a CDROM for the subscribers (see “Configuring the Unit
Using the WiMAX Modem Application CD” on page 26).
 Upgrading the CPE using an auto-configuration file, or IPKG (in *.ipk format) (see “Configuring the
CPE Using the IPKG Upgrade” on page 30).
The device may be delivered with the operator’s default settings already configured in the FLASH
memory.
The following parameters must be configured in order for a link to be established.
Table 3-1: Basic Parameters
Item
Default Value
Comment
User Name (WiMAX)
WAN mac address and
WiMax.com realm, e.g:
[email protected]
WiMAX Password
quickynikynyoky
Should be supplied by system
administrator. Configured in the
Advanced> Authentication
window
Domain
wimax.com 
(also Eng > WiMAX Config >
Realm)
Frequency
Full Scan
Should be supplied by system
administrator.
Telephony - SIP Server,
phone number,
authentication, enable the
phone
Disabled
Optional
WiFi
Enabled
VoIP is disabled by default and
should be enabled by the operator
Enabled by default
22
Chapter 3 - CommissioningConfiguring the Unit Using the Web Management Interface
Configuring the Unit Using the Web Management Interface
3.2
Configuring the Unit Using the Web Management
Interface
The BreezeMAX PRO 6000 supports multi-user permissions: Operator and Subscriber modes are
available by downloading different configuration files (IPKGs) from the web and upgrading the unit.
Each level has different permissions to access various pages for configuration.
3.2.1
Accessing the Web Management Interface
By default, the BreezeMAX PRO 6000 enables a DHCP server and computers, or network devices
connected to a LAN port, to automatically get an IP address from the unit. If the unit's DHCP server is
disabled, you can set in the PC the IP address, netmask, and gateway manually using the following
values:
IP address: 192.168.254.x ( (1 < x < 253, excluding 251)
Netmask: 255.255.255.0
Gateway: 192.168.254.251
To log in:
1 Open a web browser and enter the Gateway IP address: http://192.168.254.251. The web browser
displays the login page.
Figure 3-1: Login Window
2 Enter the user name and password, and click Login.
The system supports multi-level user login: Operator and Subscriber, and Debug modes are available.
Each level has different permissions to access various pages for configuration.
23
 Subscriber:
»
Username: admin
»
Password: admin
 Operator:
»
Username: operator
»
Password: wimax
After successful login, the Status - Device Status page is displayed.
Page Selection Bar
Main Menu
Page Main Area
Action Buttons
Figure 3-2: Main Window (Device Status)
The Web Management Interface consists of a number of menu links (to the left). Clicking on each of
them will display the configuration/status page for the selected menu item, with the applicable content
(configurable parameters/options or status information) in the main area. Several pages include a page
selection bar at the top of the page, enabling selection between several pages related to the same menu
item. The displayed pages may vary depending on user privileges.
Use the Main Menu items and the specific sub-items in the menu-bar at the top of the window to
configure settings for the current operating mode. The menus and configuration steps are described in
the next chapters of this manual.
24
In Operator mode only, additional parameters are available in the Engineering menu item, for more
detailed configuration. The Engineering features are available in a software package, and can only be
activated after uploading it to the system from the Status page See “Software Status” on page 72.
3.2.2
Applying Changes and Using Help
There are common buttons that appear in most of the interface pages. Use these buttons as follows:
 Apply - Click this button to save the changes you have made in each page of the device system. For
changes that require device reset, the device will automatically initiate reset after clicking the Apply
button.
 Undo - Click this button to clear the input data in the specific window.
 Reboot - Click this button to restart your unit. The device returns to the last applied settings.
 Reconnect - Click this button to attempt reconnecting the device to the Base Station. This step is
normally not required, unless suspecting that connection is problematic.
 Help - Click this button to open context-sensitive on-line help.
25
Chapter 3 - CommissioningConfiguring the Unit Using the WiMAX Modem Application CD
Configuring the Unit Using the WiMAX Modem Application CD
3.3
Configuring the Unit Using the WiMAX Modem
Application CD
This section explains how to use the automatic configuration tool, delivered on a CDROM with the unit,
to automatically configure a CPE. This procedure is usually performed by the subscriber.
To configure the unit using the Auto-Configuration tool:
1 From the CDROM supplied with the unit, run the CPE Auto Configuration Tool:
CPEAutoConfigTool.exe; The Installation Setup Wizard window is displayed.
Figure 3-3: Installation Setup Wizard Window
2 Click Next to continue; The Choose Your ISP window is displayed.
26
Figure 3-4: Choose Your ISP Window
3 Choose the ISP (Internet Service Provider) ConfigFile from the list and click Next. The Ready To Install
window is displayed.
Figure 3-5: Ready To Install Window
4 Click Install. If your CPE is powered up, click OK for performing system reboot. If not, power on the
CPE and click OK. 

The tool starts the auto-configuration process of the unit settings. It will change default settings by
using the *.ipk file, and then run “reset to factory default” by using default configuration in the file.
27
Figure 3-6: Installing Window
5 When the installation is complete, an Installation Success window is displayed. Click OK.
Figure 3-7: Installation Succeeded
6 Click Finish. The CPE is now configured with the parameters from the ConfigFile.
28
Figure 3-8: Installation Complete
29
Chapter 3 - CommissioningConfiguring the CPE Using the IPKG Upgrade
Configuring the CPE Using the IPKG Upgrade
3.4
Configuring the CPE Using the IPKG Upgrade
This section explains how to use the IPKG (ITSY Package Management System), provided by the
operator, to automatically configure a CPE and sometimes upgrade its features. Subscribers should use
this procedure upon specific instruction from the operator.
To upgrade the unit using the IPKG:
1 From the main menu at the left pane select Status and open the Software page (Figure 3-9).
2 Click Browse to upload the *ipk file provided for this unit.
3 Click Upgrade to apply all the parameters in the IPKG file to this unit.
Figure 3-9: Status - Software Page
30
Chapter 3 - CommissioningCreating a Default Configuration File
3.5
Creating a Default Configuration File
This section explains how to create a default configuration file (*.ipk) for automatic configuration. When
applying this file to CPEs, all the parameters will automatically be configured with the values from the
file. When resetting the unit to factory defaults - this file is reloaded, overriding any configuration
changes you may have performed on the CPE.
Creating a configuration file involves converting a *.tar file into an *.ipk file.
When the *.ipk file is ready, copy it onto a CDROM along with the subscriber documentation and
include it in the CPE package.
To create a configuration *.tar file:
1 Choose a CPE from which to create the default configuration file.
2 Configure the settings of the CPE as described in this manual.
3 Select Engineering from the main menu and open the Dev Config page (Figure 3-10).
4 Click Export. A *.tar file is created and you can save it for later auto-configuration of additional CPEs.
Figure 3-10: Engineering - Dev Config Page
31
To generate an ipk file:
1 Create a new folder and copy the following files into it:
»
Generate_Provision_V2.0.rar (provided on a CDROM)
»
The *.tar file created previously.
2 Extract the Generate_Provision_V2.0.rar and run the CPE Auto Configuration Tool:
generate_provision_2.0exe; The Generate IPKG Tool window is displayed.
Figure 3-11: Generate IPKG Tool
3 Click Import and select the tar file you created previously.
4 Select the type of IPKG to generate:
»
For Internet Service Provider (ISP) - the package will override the default configuration file.
»
For User - the package will update the local subscriber configuration file only.
5 Click Generate IPKG and save the file as .*ipk file. A green circle appears next to “Generate result”
at the end of the ipk generation process.
32
Figure 3-12: Generation Results
6 Use the ipkg file to configure CPEs, and/or include it in a CDROM for the subscriber.
33
Chapter 3 - CommissioningOperation Verification
3.6
Operation Verification
To verify proper operation of the unit, examine the LED indicators on the front panel.
To verify data connectivity, from the end-user's PC or from a portable PC connected to the unit, ping a
known device in the network, or connect to a known internet site (e.g www.Alvarion.com). This site can
be reached by clicking the Alvarion logo on the top of any page in the GUI.
Operation can also be verified from Web GUI (Status > Device Status page, see Figure 3-2)
34
35
36
37
38
39
Chapter 4 - Configuring Setup
Parameters
zzAlvarion_ page
In This Chapter:
 “Setting Basic Parameters” on page 37
 “Setting Password” on page 40
 “Setting Device Time Zone” on page 41
 “Setting Device Name” on page 42
 “Restore to Factory Default Configuration” on page 43
Chapter 4 - Configuring Setup ParametersIntroduction
Chapter 4 - Configuring Setup Parameters
4.1
Introduction
Introduction
The BreezeMAX PRO 6000’s Setup menu allows you to implement general management functions for
the unit, including setting connection modes, the system time zone, configuring the device name and
access password, and restore settings to factory defaults.
INFORMATION
You can use the web browser interface to access the WAN IP address only if the unit already has an IP
address that is reachable through your network.
The default LAN IP address of the BreezeMAX PRO 6000 is 192.168.254.251. The unit operates by
default in DHCP mode.
When you make a configuration change in the Setup pages, the following message is displayed after
clicking Apply: “Configuration setting”. After the configuration is applied, a “Prepare for Reboot”
message is displayed. The system performs a reboot and counts 60 seconds.
When applying Factory Defaults, a "Restore to factory default settings" message appears and then a
Rebooting message and 60 seconds countdown are displayed.
36
Chapter 4 - Configuring Setup ParametersSetting Basic Parameters
4.2
Setting Basic Parameters
The Basic Setup allows you to configure the main system parameters.
NOTE!
Do not change parameters in this page unless specifically instructed by your service provider. Doing so
may cause your internet/VoIP connection to fail, and you will need to reset the unit to default
parameter values.
Figure 4-1: Setup - Basic Parameters
The following table describes the configurable Basic parameters:
Table 4-1: Basic Parameters
Parameter
Description
Default
Possible Values
Specifies the mode for forwarding
data packets from the service
provider’s WiMAX network to the
local network.
Router
 Router (the only option,
unless differently
configured by Alvarion)
Operation Mode
Operation Mode
 Bridge IPCS
 Bridge ETHCS
37
Table 4-1: Basic Parameters (Continued)
Parameter
Description
Default
Possible Values
Router
 Bridge
Internal Management/VoIP Connection Mode
Management
Connection Mode
Sets the forwarding mode for
sending management packets to
the WiMAX network:
 Router
 Bridge mode - forwards
packets based on Layer 2
MAC addresses. Bridge mode
means that management
connection has a different IP
than data connection. This IP
is used for communication
with the management server,
for web access from WAN,
ping, etc.
 Router mode - forwards
packets based on Layer 3 IP
addresses. Uses data interface
for Management
communication.
VoIP Connection
Mode
Sets the forwarding mode for
sending VoIP packets to the
WiMAX network:
Router
 Bridge
 Router
 None
 Bridge mode forwards packets
based on Layer 2 MAC
addresses. Bridge mode
means that voice connection
has a different IP than data or
management connections.
This IP is used only for
SIP/RTCP and RTP messages
sent and received by the
device’s POTS (plain old
telephone service) lines.
 Router mode forwards packets
based on Layer 3 IP addresses.
Uses data interface for VoIP
communication.
 None - No forwarding. VoIP
interface is not available.
38
Table 4-1: Basic Parameters (Continued)
Parameter
Description
Default
Possible Values
Sets the connection type for the
unit:
DHCP
 DHCP
Connection Mode
Connection Mode
 Static
 DHCP - The system will assign
IP addresses to the unit on the
wide area network (WAN).
 Static - The IP address is
predefined and fixed. When
you select this option, new
menu items are displayed for
configuration:
» WAN IP Address
» WAN Subnet Mask
» WAN Gateway Address
» DNS1- Domain Name System
» DNS2
WAN MTU
WAN MTU
Sets the WAN maximum
transmission unit (MTU) size in
bytes
Auto
(1400)
 Auto (1400)
 Manual
 Auto (1400) - transmission
unit size is 1400 (maximum)
bytes
 Manual - enter the value for
transmission unit size (Range:
576-1500)
INFORMATION
Static IP is not supported by 4Motion equipment.
39
Chapter 4 - Configuring Setup ParametersSetting Password
4.3
Setting Password
Setting Password
The Password page enables you to change the default password for remote and local access to the
Graphical User Interface (GUI).
INFORMATION
It is strongly recommended that you configure your own password. If a password is not configured, the
management interface is not protected and your network security may be compromised since the
default password is not secure.
Keep a record of the password in a safe place, in case you will need to restore it.
Figure 4-2: Setup - Password
To change the login password:
1 Enter a new login password (up to 19 characters).
2 Enter the new password again for verification.
3 Click Apply.
40
Chapter 4 - Configuring Setup ParametersSetting Device Time Zone
4.4
Setting Device Time Zone
Setting Device Time Zone
The BreezeMAX PRO 6000 uses the Simple Network Time Protocol (SNTP) to set its internal clock based
on periodic updates from a time server. Maintaining an accurate time on the device enables the system
log to record meaningful dates and times for event entries. This time value may also be passed to
telephone handsets connected to the unit's phone line connections, depending on the capabilities of
your phone.
Figure 4-3: Setup - Device Time
The Device Time page displays the following information:
 Current Local Time (hh:mm:ss) – Displays the current time of the system clock.
 Time Zone – SNTP uses Greenwich Mean Time, or GMT (also known as Universal Time Coordinated,
or UTC) based on the time at the Earth’s prime meridian, zero degrees longitude. To display a time
corresponding to your local time, select your time zone from the pull-down list. The default is
GMT -6, for Central Time (USA and Canada.)
 Auto Adjust for Daylight Saving Time - Select this check-box to set the daylight saving time if the
unit operates in a region that observes daylight saving time. The default is Enabled.
41
Chapter 4 - Configuring Setup ParametersSetting Device Name
4.5
Setting Device Name
Setting Device Name
This page allows you to define a name that identifies your unit. Using an easy-to-remember name
instead of the default one will simplify access to the unit's GUI Setup menu. You can type the device
name, followed by a dot(.) in the address bar of the Web browser to login from LAN (for example:
http://mycpe.).
Figure 4-4: Setup - Device Name
The Device Name page displays the following information:
 Current Device Name - Displays the current name of the unit (Default: BMAX6000)
 New Device Name - Enter a new name for your device (up to 20 ASCII printable characters) and
click Apply.
42
Chapter 4 - Configuring Setup ParametersRestore to Factory Default Configuration
Restore to Factory Default Configuration
4.6
This page resets the unit to its factory default settings. When returning to factory defaults, the default
configuration file (IPKG) is reloaded, resetting all the parameters to those defined in this file.
All the changes from the default factory settings will be lost, including voice. Essential Voice service
settings will be restored automatically within a short period of time by the network once the device is
operational after the reboot. You need to manually restore any parameter changes, such as voice
settings that you have made, since these settings will not exist after the unit reboots following the
default restoration.
NOTE!
Do not change parameters in this page unless specifically instructed by your service provider.
Figure 4-5: Setup - Restore to Factory Warning
To restore settings to factory defaults, select the checkbox on this page and click Apply to confirm the
action. After applying factory defaults, the unit reboots.
43
Chapter 4 - Configuring Setup ParametersRestore to Factory Default Configuration
44
Chapter 5 - Configuring Local
Address Parameters
zzAlvarion_ page
In this chapter:
 “DHCP Server” on page 46
 “Lease Status” on page 47
 “Lease Reservation” on page 48
Chapter 5 - Configuring Local Address ParametersIntroduction
Chapter 5 - Configuring Local Address Parameters
5.1
Introduction
Introduction
This chapter describes how to configure internal unit parameters such as DHCP server details and leasing
parameters.
INFORMATION
Any changes to this section should only be carried out by a network administrator familiar with the
functionality of these settings.
45
Chapter 5 - Configuring Local Address ParametersDHCP Server
5.2
DHCP Server
DHCP Server
The unit has a built-in DHCP server that can be used for managing the distribution of IP addresses for the
devices connected to the local Ethernet ports. In the DHCP Server page you set DHCP parameters for
dynamic IP assignment.
Figure 5-1: DHCP Server
 Enable DHCP Server - Select this check-box dynamically assign a leased IP address to clients that
connect to the device from the local network. This option is applicable to IP CS modes only. For Bridge
IPCS and Bridge ETHCS this option is disabled.
 DHCP Server IP Address - Enter a DHCP server IP address. The default address is 192.168.254.251.
 DHCP Starting IP Address - Enter the first IP address assigned by the DHCP server. The default
address is 192.168.254.1.
 DHCP Ending IP Address - Enter the last IP address assigned by the DHCP server. The default
address is 192.168.254.5.
 DHCP Lease Time - Set the time for renewing the IP Lease. Default: 15 minutes.
46
Chapter 5 - Configuring Local Address ParametersLease Status
5.3
Lease Status
Lease Status
The Lease Status page displays information regarding the leased IP address(es):
 Client Host PC Name
 Host PC MAC Address
 IP Address
 Remaining Lease Duration (seconds)
Figure 5-2: Lease Status
Click Refresh to display the updated information of the client host PC.
Click Auto to refresh the information automatically.
47
Chapter 5 - Configuring Local Address ParametersLease Reservation
5.4
Lease Reservation
Lease Reservation
The Lease Reservation page displays information on reserved IP addresses for leasing. In this page you
assign the specific IP addresses to the specific client device connected to the Ethernet ports. You can also
add, delete, or modify the reservation settings.
Figure 5-3: Lease Reservation
 Select - Choose an IP to delete.
 Host Name - Enter a name to the host
 MAC Address - Add a device MAC address
 IP Address - Specify a reservation IP address for a specified MAC address
 Enabled - Select if to enable or disable a specified IP setting.
Use the Add or Delete buttons to add or clear reserved IPs for leasing. Click Apply to activate your
changes.
48
Chapter 5 - Configuring Local Address ParametersLease Reservation
Lease Reservation
49
Chapter 6 - Setting Advanced
Parameters
zzAlvarion_ page
In this chapter:
 “Authentication” on page 51
 “Security” on page 53
 “Firewall” on page 55
 “MAC Filter” on page 57
 “IP Filter” on page 58
 “Port Forwarding/Trigger” on page 59
 “Dynamic DNS” on page 62
Chapter 6 - Setting Advanced ParametersIntroduction
Chapter 6 - Setting Advanced Parameters
6.1
Introduction
Introduction
This chapter describes how to configure advanced parameters, such as: Firewall protection,
authentication methods, security parameters, filters for blocking the access of unauthorized clients, port
forwarding and triggering, and also the Dynamic DNS (Domain Name System) provider.
50
Chapter 6 - Setting Advanced ParametersAuthentication
6.2
Authentication
Authentication
The Authentication page allows you to set the parameters for the authentication method in order to
gain access to the WiMAX network.
NOTE!
Figure 6-1: Advanced - Authentication
The Authentication page includes the following parameters:
 Authentication Method - Select one of the following WiMAX security methods:
»
None - Authentication is disabled
»
EAP-TTLS-MSCHAPV2 (Default) - EAP-Tunneled Transport Layer Security, supporting the Microsoft
version of the Challenge-handshake authentication protocol, version 2.
»
EAP TLS - EAP-Transport Layer Security (available only if enabled by the operator)
When Authentication is enabled, set the following parameters:
51
Chapter 6 - Setting Advanced ParametersAuthentication
Authentication
 User Name - Enter the user name supplied by the service provider (Default: CPE MAC
[email protected], e.g. [email protected]).
 Password - Enter the user password (supplied by the service provider). Default: quickynikynyoky
 Password Confirmation - Re-enter the user password to confirm it.
52
Chapter 6 - Setting Advanced ParametersSecurity
6.3
Security
Security
The Security page enables to configure the firewall feature. The firewall feature can be used to block
unauthorized access while allowing only authorized communications from the Internet network. This
feature also allows the device to be managed over the Internet by authorized personnel.
NOTE!
Figure 6-2: Advanced - Security
The Security page includes the following parameters:
 Enable Web login from Internet - Select this check-box to access the device from other networks.
When web login is enabled and a port is defined, you can access the device from another network
Simply by opening a browser and entering the address of the device (Default: Enabled
 Web Login Port from Internet - Define a specific port number for security access control (the
default port number is 8080). Available only if Web Login from Internet is enabled.
 Enable ping from Internet - Enables to set the unit to respond to ping commands for
troubleshooting purposes (Default: Disabled).
53
Chapter 6 - Setting Advanced ParametersSecurity
INFORMATION
Security
The Enable Ping From Internet option is used for testing, therefore it is recommended to keep it disabled
during normal operation.
You can ping and receive a replay from the LAN network while ping is disabled. However, when this
option is disabled, you cannot ping from WAN to the unit.
To issue a Ping command, enter the destination address and click Ping. The response will be displayed
in the area below the Ping button.
To access the unit from WAN, use https://CPE_WAN_IP_Address:8080.
54
Chapter 6 - Setting Advanced ParametersFirewall
6.4
Firewall
Firewall
The BreezeMAX PRO 6000 provides extensive firewall protection by restricting connection parameters to
limit the risk of intrusion and defending against a wide array of common hacker attacks. However, for
applications that require unrestricted access to the Internet, you can configure a specific client/server as
a demilitarized zone (DMZ).
NOTE!
Changes made on this page may affect your internet connection. If you notice an undesirable change
in your internet service after making a change to the firewall, you may want to return to the previous
setting.
Figure 6-3: Advance - Firewall
The following configuration parameters are available:
55
Chapter 6 - Setting Advanced ParametersFirewall
Firewall
 Firewall settings
»
Enable Firewall - Select this check-box to enable or disable firewall.
»
Block Anonymous Internet Requests - Select this check-box to reject anonymous Internet
requests.
»
Filter Multicast - Select this check-box to filter out mutlicast packets.
»
Filter Internet NAT Redirection - NAT Redirection is used to block access to the local server
from the local PC via unit’s WAN IP. If this feature is enabled, local PC can only access the local
server via unit’s LAN IP.
»
Filter IDENT (Port 113) - Select this check-box to drop incoming packets from the unit WAN side
with destination port 113.
 DMZ (“Demilitarized Zone”)
»
Enable DMZ - Set a server that acts as a "neutral zone"and separates an internal network from
a public one in order to prevent outside access to private data. The DMZ forwards the network
traffic to specific hosts based on the protocol and port number.
»
DMZ - DMZ IP Address.
 UPnP - Enable UPnP IGD - Select this check-box to enable/disable Universal Plug and Play Internet
Gateway Device - a protocol that simplifies device connection and network implementation. When
this option is enabled, certain Windows applications would setup the port forwarding rule
dynamically.
 VPN Passthrough - Select one of the following security protocols to define the Virtual Private
Network traffic sessions.
NOTE!
»
Enable IPSec pass-through - Internet Protocol Security. IPSec provides encrypted security
services at the IP layer, and enables to use encrypted tunnels /traffic between two hosts.
»
Enable PPTP pass-through - Point to Point Tunneling Protocol. This protocol enables the
transfer of data packets of TCP / IP through a foreign network that is not based on these
protocols (by marking the packet with an address suited to the foreign network)
»
Enable L2TP pass-through - Layer 2 Tunneling Protocol, an open standard with mutlivendor
interoperability and acceptance.
56
Chapter 6 - Setting Advanced ParametersMAC Filter
6.5
MAC Filter
MAC Filter
You can block access to the Internet from clients on the local network by MAC addresses. In the MAC
Filter page you set MAC addresses to be filtered out by the security system. You can add addresses to
the filtered group or delete them, and also enable or disable filtering at different times.
Figure 6-4: Advance - MAC Filter
 Select - Select this check-box to delete this entry.
 MAC - Enter the MAC address to be filtered.
 Enabled - Select this check-box to enable/disable filter for the specific MAC address.
Use the Add or Del buttons to add the address to the filtered group or clear it from the group. Click
Apply to activate your changes.
57
Chapter 6 - Setting Advanced ParametersIP Filter
6.6
IP Filter
IP Filter
You can block access to the Internet from clients on the local network by specifying IP addresses and
TCP/UDP port numbers. You can configure up to five IP filters on the unit.
In the IP Filter page you set IP addresses to be filtered out by the security system. You can add addresses
to the filtered group or delete them. You can also enable or disable filtering at different times.
Figure 6-5: Advance - IP Filter
 IP Range - Specify an IP address or range on the local network. (Range: 192.168.254.1 to
192.168.254.254)
 Port Range - Enter the port range to be filtered
 Protocol - set the protocol to be filtered: TCP (default) or UDP.
 Enabled - Select this check-box to enable (default) or disable filtering for the specific table entry.
Use the Add or Del buttons to add the address to the filtered group or clear it from the group. Click
58
Chapter 6 - Setting Advanced ParametersPort Forwarding/Trigger
6.7
Port Forwarding/Trigger
6.7.1
Port Forwarding
Port Forwarding instructs the router to which computer on the local area network to send data.
According to the port forwarding rules or setup, the router sends the data from the external IP address:
port number to an internal IP address: port number. Port Forwarding rules are created per port.
The Port Forwarding page enables managing and setup of the rules for Port Forwarding.
Figure 6-6: Advance - Port Forwarding
 Protocol - Set the protocol for port forwarding: TCP or UDP.
 WAN Port - Enter the range (begin and end ports) for the WAN.
 LAN IP - Enter the IP address of the computer from LAN network for which you open ports in “Port
forwarding”.
 Enabled - Select this check-box to enable/disable port forwarding for the specific IP
Use the Add or Del buttons to add a rule to the port forwarding group or clear it from the group. Click
59
6.7.2
Port Trigger
Port forwarding redirects incoming network traffic from a pre-defined WAN port range to a pre-defined
LAN IP Address and LAN port range. Port triggering is a way to automate port forwarding: outbound
traffic on predefined ports ('triggering ports') causes inbound traffic to specific incoming ports to be
dynamically forwarded to the initiating host, while the outbound ports are in use. This allows computers
behind a NAT-enabled router on a local network to provide services that would normally require the
computer to have a fixed address on the local network. Port triggering triggers can open an incoming
port when a client on the local network makes an outgoing connection on a predetermined port or
range of ports.
In the Port Trigger page you can specify up to 15 rules with parameters for Port Triggering.
Figure 6-7: Advance - Port Trigger
 No. - Display the number of the port trigger rule
 Application Name - Enter a name for identifying this port trigger protocol.
 Triggered Range - Enter the trigger range (1~65535)
 Forwarded Range - Enter the forwarded range (1~65535)
 Enabled - Select this check-box to enable/disable port trigger for the specific application
60
Use the Add or Del buttons to add a rule to the port triggering group or clear it from the group. Click
61
Chapter 6 - Setting Advanced ParametersDynamic DNS
6.8
Dynamic DNS
Dynamic DNS
Dynamic Domain Name System (DNS) is a mechanism used for translating host names for network
nodes into IP addresses in real-time. This page allows enabling the Dynamic DNS and selecting the
service provider.
Figure 6-8: Advanced - Dynamic DNS
The Dynamic DNS page includes the following parameters:
 Enable DDNS - Select this check-box if the unit has a non-static IP address to keep the domain name
associated with an ever-changing IP address.
When DDNS is enabled, configure the following parameters:
»
DDNS User Name
»
DDNS Password
»
DDNS Host Name
 DDNS Service Provider - Select the DDNS service provider from the drop-down list (Default:
www.dyndns.org).
62
Chapter 7 - Displaying Status
Details
zzAlvarion_ page
In this chapter
 “Device Status” on page 65
 “WiMAX Status” on page 67
 “Software Status” on page 72
 “Telephony Status” on page 73
 “Certificate Status” on page 74
 “About” on page 76
Chapter 7 - Displaying Status DetailsIntroduction
Chapter 7 - Displaying Status Details
7.1
Introduction
Introduction
This chapter describes how to view and understand the various parameters that are currently set on your
unit. The Status menu item includes pages containing information on all the features of the device, such
as the device currently used software, the Telephony status, WiMAX parameters, certification
information, etc.
64
Chapter 7 - Displaying Status DetailsDevice Status
7.2
Device Status
Device Status
This page displays the status of the unit such as system uptime and WAN information.
Figure 7-1: Status - Device Status
 Click Refresh to display the current device status.
 Click Auto to update the status information periodically.
 The following information is displayed:
Table 7-1: Device Status Parameters
Item
Description
Operation Mode
The mode for forwarding data packets from the service provider’s WiMAX
network to the local network, as defined in “Setting Basic Parameters” on
page 37. Available option: Router.
Connection Mode
Connection type for the unit, as defined in “Setting Basic Parameters” on
page 37. Available options: DHCP, Static
IP Address
WAN IP address, if the Static connection mode was selected, as defined in
“Setting Basic Parameters” on page 37. For DHCP mode - IP address
acquired on the WAN interface is displayed. Otherwise it is 0.0.0.0
MAC
WAN MAC Address for data interface
65
Chapter 7 - Displaying Status DetailsDevice Status
Device Status
Table 7-1: Device Status Parameters (Continued)
Item
Description
IP Subnet Mask
The IP subnet mask, if the Static connection mode was selected, as defined
in “Setting Basic Parameters” on page 37, For DHCP mode - IP Subnet
Mask acquired on the WAN interface is displayed. Otherwise it is 0.0.0.0
IP Default Gateway
The IP Default Gateway, if the Static connection mode was selected, as
defined in “Setting Basic Parameters” on page 37. For DHCP mode - IP
Default Gateway acquired on the WAN interface is displayed. Otherwise it
is 0.0.0.0
IP Default Connection
IP is connected to the network (On/Off)
Firewall
Firewall enabled or disabled (on/off), as set in “Firewall” on page 55.
Lease Obtained-Data
Date of obtaining the device leasing.
Lease Expires-Data
Date of device leasing expiration.
DNS Server
The Domain Name Server address
Time Server
The NTP (Network Time Protocol) server address
Device Up Time
Duration of device function (xdays yhours zminutes)
Device Restart Reason
The reason for last device reboot (e.g. Software Upgrade)
Serving BSID
Base Station ID number (e.g. 00:01:21:00:03:5A)
RSSI
Currently received signal strength indication (e.g. -70 dBm)
CINR
Carrier to Interference-plus-Noise Ratio [in decibels (dB)] (e.g. 13 dB). This
value should be maximized for best signal quality.
66
Chapter 7 - Displaying Status DetailsWiMAX Status
7.3
WiMAX Status
WiMAX Status
The WiMAX Status displays a summary of the WiMAX network connection parameters.
Figure 7-2: Status - WiMAX Status
 Click Refresh to display the current WiMAX connection status.
 Click Auto to update the status information periodically (every 3 seconds)
The following table describes the WiMAX Status parameters:
67
WiMAX Status
Table 7-2: WiMAX System Parameters
Parameter
Description
Possible values
The status of WiMAX connection.
 Network Entry - the unit has just
been connected to the network
WiMAX System
State
 Operational - the unit is functional
 Scan - the unit scans the network
 Idle - the unit is de-registered from
the network, however will
continue to scan the network and
keep track of its location
BSID
The Base Station ID
Depends on the BS to which the unit
is connected
CINR
Carrier to Interference-plus-Noise
Ratio [in decibels (dB)] - a
measurement of signal effectiveness.
A greater value will improve the
connection speed.
0-35 dB
Security
The network security technologies
and protocols status
 Authorized - has authentication
settings
 Unauthorized - without
authentication setting.
Unauthorized also appears for
units set with authentication,
when they are not linked to a BS
and successfully authenticated.
Bandwidth
Device operation bandwidth
Max Tx Power
The maximum uplink transmit power
Max RSSI
The maximum signal strength
indication value used since the last
reboot
Max CINR
The maximum Carrier to
Interference-plus-Noise Ratio value
used since the last reboot
Connection Time
Time (in seconds) during which the
unit is connected to the BS
Depending on unit model: 5000,
7000, or 10000 KHz
-35 to -100 dBm
68
WiMAX Status
Table 7-2: WiMAX System Parameters (Continued)
Parameter
Description
Possible values
Scan Type
The method by which the network is
scanned
 Fullband - The system will try to
scan the whole frequency band.
 CAPL - Channel Allocation Priority
Level. The system allocates priority
to channels for scanning order.
 Neighbor - The system will try to
scan the neighbor BS to the
previous BS defined in “Last good
BS”. The neighbor BS details will
appear in the table of this section.
 History - The system will try to
scan with the previous good BS to
speed up the scan duration. A
“good BS” is defined as one with
which the unit can get an IP
address.
RSSI
Currently received signal strength
indication
Temperature
Unit’s temperature
Overheat
Indication of temperature higher
than 40°
TxPwr
Current uplink transmit power
Min Tx Power
Minimum uplink transmit power
Min RSSI
The minimum signal strength
indication value used since the last
reboot
Min CINR
Minimum Carrier to
Interference-plus-Noise Ratio value
used since the last reboot
Center Frequency
The middle frequency of the
bandwidth of a channel. The unit is
synchronised on this frequency.
-35 to -100 dBm
WiMAX TX Uplink Statistics
Data Rate
Shows the current throughput in
uplink direction. The level of available
data throughput that can actually be
provided to an end-user.
Packets
The number of carried blocks of data
69
WiMAX Status
Parameter
Description
BE bytes
Total number of bytes sent on Best
Effort connection
UGS bytes
Total number of bytes sent on
Unsolicited Grant Service connection
ERTPS bytes
Total number of bytes sent on ERTPS
- Extended Real-time Polling Service
data packets.
TX bytes
Total of uplink transmitted bytes
Possible values
WiMAX RX Downlink Statistic
Data Rate
Shows the current throughput in
downlink direction. The level of
available data throughput that can
actually be provided to an end-user.
Packets
Number of carried blocks of data
BE bytes
Total number of bytes sent on Best
Effort data packets
UGS bytes
Unsolicited Grant Service data
packets
ERTPS bytes
Extended Real-time Polling Service
data packets
RX bytes
Total of downlink transmitted bytes
WiMAX PHY
DL Mode
Downlink connection mode
DL max mcs
The maximum modulation reached
DL min mcs
The minimum modulation reached
DL mcs
Current modulation
UL max mcs
The maximum modulation reached
UL min mcs
The minimum modulation reached
UL mcs
The current modulation
SISO, MIMO, MiMO A, MIMO B
70
WiMAX Status
Parameter
Description
List of various
modulations:
Number of packets in this
modulation
Possible values
 QPSK DL/UL
PDUs
 16QAM DL/UL
PDUs
 64QAM DL/UL
PDUs
TX Service Flow / Rx Service Flow
Type
The service flow type
SFID
Service flow ID
CID
Connection ID
DropPackets (Tx
only)
Number of packets that were
dropped
DropBytes (Tx only)
Number of bytes that were dropped
Best effort, ERT, NRT, UGS
71
Chapter 7 - Displaying Status DetailsSoftware Status
7.4
Software Status
Software Status
The Software page enables installing or removing IPKGs (Itsy Package Management System) lightweight package management systems that allows for dynamic installation/removal of packages on a
running system.
INFORMATION
Use this page only upon instructions from Alvarion.
Figure 7-3: Status - Software
 To install an IPKG - Click Browse to load and install an Itsy Package Management System and click
Upgrade.
 To remove an IPKG - Click Remove next to the component to be deleted.
The page also displays the current software items installed by the operator on the device. These are
read-only items that cannot be edited/removed
72
Chapter 7 - Displaying Status DetailsTelephony Status
7.5
Telephony Status
Telephony Status
This page displays information on the telephone line status.
Figure 7-4: Status - Telephony Status
The information displayed in this window is:
 SIP User IP address - IP address of the Session Initiation Protocol, an application-layer control
protocol that can establish, modify, and terminate multimedia sessions such as Internet telephony
calls (VOIP).
 Line 1 Status - Registered or De-registered in the SIP server.
 DSP Version - current version of the voice chip in the Data Signal Processor (DSP).
 Click Refresh to display the current telephony status.
 Click Auto to update the status information periodically (every 3 seconds).
73
Chapter 7 - Displaying Status DetailsCertificate Status
7.6
Certificate Status
Certificate Status
The Certificate page displays available certificates information, such as serial number, issuer of
certificate, type and expiration date. Root CA certificates can be added or deleted using this page.
NOTE!
Figure 7-5: Status - Certificate
The page displays the following information in a table:
 Certificate Serial Number
 Issued to
 Issued by
 Expiry Date - the date for certificate expiration. The format is mm/dd/yyyy.
 Certificate type
 Edit - option to remove a certificate from the list (only if the Remove option appears in this column)
74
Chapter 7 - Displaying Status DetailsCertificate Status
Certificate Status
INFORMATION
The table displays only part of the information (e.g. part of the serial number). To view the entire string,
hover the mouse over the cell to display a tool-tip with the entire string.
 To add a certificate, click Browse and select the file to load. Click Import to add the certificate to the
list.
 To remove an editable certificate, click Remove next to the certificate to be deleted. Some certificates
are read-only and cannot be deleted.
75
Chapter 7 - Displaying Status DetailsAbout
7.7
About
About
This page displays the current information about the unit. The information is set by the manufacturer as
the factory defaults.
The information includes:
 Service Provider
 Product Name
 WAN MAC
 LAN MAC
 Model ID
 Hardware Version
 Serial Number
Figure 7-6: Status - About
76
Chapter 8 - Configuring Telephony
Parameters
zzAlvarion_ page
In this chapter
 “VoIP Parameters” on page 79
Chapter 8 - Configuring Telephony ParametersIntroduction
Chapter 8 - Configuring Telephony Parameters
8.1
Introduction
Introduction
This chapter describes how to configure VoIP parameters.
Voice over Internet Protocol (VoIP) technology is a way of using the Internet to make phone calls. You
can make VoIP calls by connecting a regular phone to one of the unit's Phone ports.
Before using the VoIP Phone ports on the unit, you must have an account with a SIP service provider that
includes one voice line. Setup of the modem is automatic and you will not need to make any changes to
this page to have your voice service enabled, however you may want to change some of the features
that are listed below. The modem allows the Phone port to be configured separately with different
settings.
NOTE!
Modifying the user name, password, or user account settings is not required. These attributes are
automatically populated when the modem is configured after connection. If you are having trouble
with your voice service, contact Customer Service for support. Do not make changes to these items in
an attempt to restore your service.
78
Chapter 8 - Configuring Telephony ParametersVoIP Parameters
8.2
VoIP Parameters
VoIP Parameters
Figure 8-1: Telephony - VoIP Parameters
The VoIP page includes the following parameters:
 User Name - The SIP (Session Initiation Protocol) User name. Its format depends on the Sip Server
 Password and Confirm Password - The SIP user Password
 User Account - The SIP Account. Its format depends on the Sip Server.
 Display Name - Enter a name that will be displayed on the Caller ID Display Name of the receiving
party (if supported by the network)
79
Chapter 8 - Configuring Telephony ParametersVoIP Parameters
VoIP Parameters
 Call Waiting - Select this check-box to enable/disable suspending the current telephone call and
switch to a new incoming call (Default: Disabled).
 Call Waiting Timeout - enter a number of seconds after which the call waiting is timed out (Default:
30 seconds).
 Call Block list - set up the numbers as follows:
»
Incoming - blocks incoming calls from the listed numbers (up to 50 digits).
»
Outcoming - blocks outgoing calls from the listed numbers (up to 50 digits).
80
Chapter 9 - Engineering
zzAlvarion_ page
In this chapter:
 “WiMAX Configuration” on page 83
 “VoIP Configuration” on page 87
 “Service Line” on page 96
 “Device Configuration” on page 100
 “DM (Device Management) Settings” on page 101
 “Function Settings” on page 106
 “UI Settings” on page 107
Chapter 9 - EngineeringIntroduction
9.1
Introduction
Introduction
The Engineering menu item is accessible to the Operator only and provides advanced CPE configuration
parameters. The Engineering mode is available in a software package that is uploaded from the Status
page; See “WiMAX Status” on page 67).
For detailed description of terms and abbreviations, refer to the “Glossary” on page 109.
82
Chapter 9 - EngineeringWiMAX Configuration
9.2
WiMAX Configuration
WiMAX Configuration
In this page the operator defines WiMAX parameters for the CPE WiMAX connection functionality.
Figure 9-1: Engineering - WMAX Config.
83
WiMAX Configuration
Figure 9-1: Engineering - WMAX Config. (Continued)
The following table describes the WMAX Configuration parameters:
Table 9-1: WMAX Config. Settings
Parameter
Description
Default
Possible Values
Enable Idle Mode
Select this check-box to enable Idle
Mode -the CPE is completely
deregistered from the network,
however will continue to scan the
network and keep track of its location
Enable
Enable/disable
Enable Handover
Select this check-box to enable
Handover - transfer to another BS
during mobility
Enable
Enable/disable
Enable WiMAX
Supplicant Root CA
IOT AAA root certificates are
predefined in the CPE. Select this
check-box to allow the CPE to verify
BS's certification.
Disable
Enable/disable
Enable WiMAX
Supplicant Random ID
Select this check-box to assign a
random ID to the Supplicant. If
disabled - the ID is the
MAC_Address@realm.
Enable
Enable/disable
Common Settings
84
WiMAX Configuration
Table 9-1: WMAX Config. Settings (Continued)
Parameter
Description
Default
Possible Values
Enable WiMAX
Supplicant Anonymous
ID
If enabled, the unit will use “WiMAX
Supplicant Anonymous ID” as
anonymous identity, else the unit will
use MAC_Address@realm instead.
Disable
Enable/disable
WiMAX Supplicant
Anonymous ID
Enter the WiMAX Supplicant
Anonymous ID to be used.
anonymous_identity
Up to 128 characters
Realm
The WiMAX domain
WiMax.com
Enable WiMAX NAP Filter
Enables filtering Network Access
Provider. If it is enabled - network
provider ID will be checked for
network entry.
Disable
Enable/disable
Enable Prefer BSID
When enabled, the CPE will connect
to the preferred BS, whose details (ID
and mask) are defined below.
Disable
Enable/disable
Prefer BSID
Enter an ID of the preferred base
station.
N/A
Prefer BSID mask
Enter a mask for the preferred base
station.
N/A
 BSID -Base Station ID
N/A
N/A
Last Good BS Scan
Table of Last Good BSs
 CF/KHz - Channel Frequency
 BW/KHz - Bandwidth in KHz
 PreambleID - The Preamble ID of
the BS
Use the Clear button to delete a
saved last good BS from the list.
Enable Last Good BSs
Scan
The system will try to scan with the
previous good BS to speed up the
scan duration. A “good BS” is defined
as one with which the CPE can get an
IP address.
Enable
Enable/disable
Enable Hold On Last
Good BS
The system will try to connect to the
last good BS for the specified time
defined below.
Enable
Enable/disable
85
WiMAX Configuration
Table 9-1: WMAX Config. Settings (Continued)
Parameter
Description
Default
Possible Values
Hold on timeout value
Enter the period of time (in
milliseconds) to keep referring to this
BS as the Last Good BS when
connection is not optimal.
300,000
50~900,000 ms
The system will try to scan the
neighbor BS to the previous BS
defined in “Last good BS”. The
neighbor BS details will appear in the
table of this section.
Enable
Enable/disable
Neighbor BS Scan
Enable Neighbor BS Scan
CAPL BS Scan (Channel Allocation Priority Level)
NAPID
Sequential number of NAP
N/A
Enable CAPL BS Scan
Channel Allocation Priority Level - The
CAPL scan list is defined by the
customer provisioned list. Priority is
the customer defined priority scan
order. Higher priority will be scanned
first.
Disable
Channel Plan
Define the channel plan by adding the
Ref IDs, in order to map the IDs into a
scan list.
N/A
The system will try to scan the whole
frequency band (250 kHz for the
frequency step) with user specified
bandwidth (5 MHz, 7 MHz, 10 MHz)
Enable
Enable/disable
Fullband Scan
Enable Fullband Scan
Enable/disable
86
Chapter 9 - EngineeringVoIP Configuration
9.3
VoIP Configuration
VoIP Configuration
The BreezeMAX PRO 6000 CPE uses Session Initiation Protocol (SIP) as the control mechanism that sets
up, initiates, and terminates calls between a caller and a called party. The SIP messaging makes use of
“Proxy,” “Redirect,” and “Registration” servers to process call requests and find the location of called
parties across the Internet. When SIP has set up a call between two parties, the actual voice
communication is a direct peer-to-peer connection using the standard Real-Time Protocol (RTP), which
streams the encoded voice data across the network.
Before using the VoIP Phone port on the unit, the user must have an account with a SIP service provider
and configure the required parameters through the web interface.
Figure 9-2: Engineering - VoIP
87
VoIP Configuration
Figure 9-3: Engineering - VoIP (continued)
88
VoIP Configuration
The following table describes the VoIP Settings parameters:
Table 9-2: VoIP Settings
Parameter
Description
Default
Possible Values
user Domain
The host portion of the SIP Uniform
Resource Identifiers (URIs) that are
assigned to users in a network. The SIP
domain name can sometimes be different
from the internal network domain name.
N/A
registrar Address
The IP address of the SIP registrar server. A
registrar is a server that accepts SIP register
requests and places the information it
receives in those requests into the location
service for the domain it handles.
N/A
registrar Port
The TCP port number used by the VoIP
service provider’s register server.
5060
Range: 1030 to 65535
outbound Proxy
Address
Address of the VoIP service provider SIP
proxy server.
N/A
outbound Proxy Port
The TCP port number used by the VoIP
service provider’s SIP proxy server.
5060
Range: 1030 to 65535
RTP Port Range Start
Enter the port Start and End to define the
range that Real-time Transport Protocol
will use
8000
Range: 1030 to 65535
DSP Nation
National protocol definition
Customized
Caller ID
 Select the standard by which the caller
is identified:
US
Global Settings
RTP Port Range End
8015
 British TelecomDual-tone
multi-frequency signaling standard
G711 Fax Codec
Modem Call Codec
Select the codec to convert fax signals into
digital data to be transmitted over the
Internet.
g711a
Select the codec to be used for modem
calls; when a modem call is detected, this
codec will be used
g711u
g711u
g711a
g711u
g711a
89
VoIP Configuration
Table 9-2: VoIP Settings (Continued)
Parameter
Description
Default
Possible Values
Hook Flash
Max/Min. Timer
Enter a value (in milliseconds) to define
how long should the hook be pressed as to
be considered as flash (hook should be
pressed for a time between min. and max.
values)
Max: 0.9 ms
100 - 1550 ms
Registration Expire
Enter a value (in seconds) to define the
time by which the CPE has to renew its
subscription to the SIP server
3600 seconds
1 - 99999 seconds
Enable Telmex FQDN
Enable Request for Comments (RFC) 3263
"Locating SIP Servers" functionality. The
Session Initiation Protocol (SIP) uses DNS
procedures to allow a client to resolve a SIP
Uniform Resource Identifier (URI) into the
IP address, port, and transport protocol of
the next hop to contact. It also uses DNS
to allow a server to send a response to a
backup client if the primary client has
failed. This procedure uses the
Fully-qualified domain name (FQDN).
Uncheck
Check/Uncheck
Set by the operator
Min: 0.1 ms
Customized Tone Settings
Default Dial Tone
Defines the tone that will be heard during
dialing. The string refers to tone,
frequency, and cadence.
350@-19,440@-19;1
0(*/0/1+2)
Default Callwaiting
Tone
Defines the tone that will be heard during
call waiting. The string refers to tone,
frequency, and cadence.
440@-22;31.2(.3/10.1
/1)
Default MWI Tone
Defines a message-waiting indicator tone.
The string refers to tone, frequency, and
cadence.
350@-13,440@-13;1.
2(.1/.1/1+2);*(*/0/1+
2)
Enable WiMAX QoS
For known SIP
Provider
This check-box enables the CPE to select
the quality of service level from a known
SIP. This feature is used for MS initial
service -flow.
Enabled
List of SIP providers
Click Insert to add a known SIP provider
to the list and specify the SIP Proxy address
and Proxy port. To remove from the list,
click Del.
N/A
Known SIP Provider
Enable/disable
90
VoIP Configuration
Parameter
Description
Default
Possible Values
Line 1 Settings - Common Settings
Enable Line 1
To enable voice feature
Disabled
Enable/disable
DTMF Method
Enable the sending of dual-tone
multi-frequency (touch tone) phone signals
over the VoIP connection:
RFC2833+
InBand
InBand, RFC2833,
RFC2833+InBand,
SIPInfo
 InBand - The DTMF signals are sent
over the RTP voice stream.
 RFC2833 - Relay the DTMF signals over
the RTP voice stream without any
distortion
 RFC2833+InBand - Uses the best
method depending on the called party.
 SIPInfo - Uses the data from SIP
callForward
Unconditional
Forwards an incoming call to another
number for all calls.
Disabled
Enable/disable
callForward
Unconditional
Number
Enter the number to which to forward all
incoming calls.
N/A
callForward
Busy
Forwards an incoming call to another
number when the current line is busy.
Disabled
Enable/disable
callForward
Busy Number
Enter the number to which to forward
incoming calls when the current line is
busy.
N/A
callForward
NoReply
Incoming calls are forwarded to another
phone number only if there is no answer
after a pre-configured timeout.
Disabled
Enable/disable
Call Forwarding No
Reply Timeout
The time (in seconds) a call waits for an
answer before being forwarded to the
number specified in callForward NoReply
30 seconds
N/A
callForward
NoReply Number
Enter the number to which to forward
incoming calls when there is no reply from
current line.
N/A
Caller ID Block
Select this check-box to hide your name
and number when calling another number.
Enable
Enable/disable
Anonymous Call
Reject
Select this check-box to block calls from an
unidentified number.
Disabled
Enable/disable
91
VoIP Configuration
Parameter
Description
Default
E911
Emergency call: Enter a number that will
be referred to as the emergency call. When
dialing “911” this call will be routed to the
emergency service.
N/A
Automatic Recall
Return call: Enables calling back the
number whose call you missed. Enter a
special number (e.g. *42). Dialing this
number will recall the number that was
missed in last incoming call. Empty field
means Automatic Return Call is disabled
N/A
Redial
Enter a shortcut (e.g. *53) to define
redialing to the last number
N/A
Automatic Call Back
Repeat dial if busy: automatically redial the
number time and again. Define a special
number (e.g.*52). Dialing this number
after the busy tone received, will
automatically redial the number until the
recipient's line is free. Then your phone
will ring back when you are being
connected. Empty field means Automatic
Return Call is disabled.
N/A
Inter-digit T/O
Delay in call establishment (timeout in
seconds)
5 sec.
Call Switching
Set a shortcut (e.g. *66) to enable
switching from one phone to another
without hanging up. Switching is done by
pressing the flash button and dialing the
shortcut number.
N/A
DialPlan
Establish the expected number and pattern
of digits for a telephone number
N/A
Flash Timeout
When pressing Flash you have the time
interval defined by this value to dial other
numbers (e.g. for a conference call). If you
do not dial a number within the specified
time, you return to the initial call.
15 seconds
Any number
Date Mode
Use date information from the Date
header in the SIP message/NTP server
Date Header
Date Header/NTP
Enable Hold Tone
Select whether to play hold tone when put
in hold.
Check
Check/Uncheck
Possible Values
92
VoIP Configuration
Parameter
Description
Default
Possible Values
CLIR per-call
Enter a dialing prefix for Calling Line
Identification Restriction (CLIR) per call, for
example: *45
N/A
Any number
CallHold
Enables holding the line while speaking
with one participant in a conversation.
Disabled
Enable/disable
Do Not
Disturb(DND)
Select this check-box to reject any
incoming calls. The call will result in Busy
tone.
Disabled
Enable/disable
g711u Codec
Enable
The ITU-T G.711 with mu-law standard
codec that uses Pulse Code Modulation
(PCM) to produce a 64 Kbps high-quality
voice data stream. This standard is used in
North America and Japan.
Enable
Enable/disable
g711u Priority
The priority of codec by which the unit will
attempt to use for best voice quality
Third priority
g711u ptime
Set the time (in milliseconds) for the unit to
attempt to use the codec highest priority
in the list before trying the next lower one.
30 ms
g711a Codec
Enable
(G711.aLaw): The ITU-T G.711 with A-law
standard codec that uses Pulse Code
Modulation (PCM) to produce a 64 Kbps
high-quality voice data stream. This
standard is used in Europe and most other
countries around the world.
Enabled
g711a Priority
Second priority
g711a ptime
30 ms
g729 Codec Enable
The ITU-T G.729ab standard codec that
uses Conjugate Structure Algebraic-Code
Excited Linear Prediction (CS-ACELP) with
silence suppression to produce a
low-bandwidth data stream of 8 Kbps.
Note that DTMF and fax tones do not
transport reliably with this codec, it is
better to use G.711 for these signals.
Enabled
Codec Setting
Enable/disable
Enable/disable
93
VoIP Configuration
Parameter
Description
Default
g729 Priority
First priority
g729 ptime
30 ms
Possible Values
DSP Setting (Digital Signal Processing)
Enable VAD
Voice Activity Detection - detects the
periods of silence in the audio stream so
that it is not transmitted over the network.
Enabled
Enable/Disable
Enable RTCP
Select this check-box to enable Real-time
Transport Control Protocol
Enable
Enable/Disable
EC Length
Echo Cancellation - Sets the delay time (in
milliseconds) for voice echo cancellation. A
voice echo can be created on some
two-wire phone loops, which becomes
increasingly louder and annoying when
there is a long delay. If voice echo is a
problem during a call, you can adjust this
parameter to try and reduce or remove it.
32
16, 32, 48
JB Delay Max
Jitter Buffer control: JB delays the arriving
packets so that the end user experiences a
clear connection with very little sound
distortion.
100 ms
Set the maximum jitter buffer delay time
(in milliseconds)
JB DelayInit
The initial delay of the jitter buffer in
milliseconds. The system holds the 1st
received packet for the time defined in
DelayInit before sending it out.
0 ms
Tx Gain
Enter a value (in db) to control the voice
transmission quality
0
-5 to +5
Rx Gain
Enter a value (in db) to control the voice
receiving quality
0
-5 to +5
94
VoIP Configuration
Parameter
Description
Default
Possible Values
T.38 Enable
Select one of the options to send fax
messages over the VoIP network from a fax
machine connected to one of the RJ-11
Phone ports on the unit.
Enable T.38
Enable T.38
T.38 is a standard for sending FAX across IP
networks in a real-time mode.
Disable T.38
Enable T.38+WA (T.38
with Asterisk)
95
Chapter 9 - EngineeringService Line
9.4
Service Line
Service Line
In the Service Line page you set the rules for data traffic. If the Marking check-box is not activated
(marking disabled), then you can configure a range of DSCPs (Differentiated Services Code Point) as a
rule. For uplink traffic, if the packets have the DSCP in the specified interval of a rule and are coming
from the configured port, then a match is found and traffic is forwarded towards WAN. For downlink
traffic, if the packets have the DSCP in the specified interval of a rule and the destination is on the
configured port then the packets are forwarded towards LAN.
A rule with Marking enabled must have the same value for the start and stop DSCP. For uplink traffic,
when a rule with marking enabled is encountered then the traffic is marked with the corresponding
DSCP value, regardless of the existing DSCP value. For downlink traffic, packets coming from WAN are
forwarded to the configured LAN port only if they have the configured DSCP value. The value of the
DSCP field of the first incoming packet from the specified LAN port will be used to mark all the reply
packets towards LAN.
For example, if the first coming packet from Ethernet LAN has the DSCP value 3, the second 5 and so
on, and the Service Line rule is configured to mark the Ethernet LAN packets with 10 - all the reply
packets coming from WAN with the DSCP 10 will be forwarded to LAN with DSCP 3.
Any combination of VLAN ID, VLAN Priority and DSCP Value parameters must be unique over all the
configured service lines. Otherwise the service line configuration is rejected. The set of rules are verified
one by one until a match is found. If a match is found the other rules are not checked anymore. The
default rule permits all the traffic (DSCP value between 0 and 63.
For IP-CS, Bridge-IPCS (IP Conversion Sublayer) and Bridge-ETHCS (Ethernet Conversion Sublayer) service
line types are available depending on the function settings defined by the operator (see “Function
Settings” on page 106).
96
Service Line
Figure 9-4: Engineering - Service Line (ETHCS and IP-CS)
The following information is displayed:
Reserved DSCP - When DSCP spoofing is enabled, you cannot configure a rule with a range of DSCPs
that contains one of the DSCPs reserved for SIP, RTP/RTCP, or MGMT. For example, if the values for SIP,
RTP/RTCP, MGMT are 26/46/6, you cannot configure a rule that contains one of these values (DSCP start
97
Service Line
4, DSCP stop 7 or DSCP start 20, DSCP stop 50). Also you cannot configure a rule to mark packets with
one of these values. (See also “Function Settings” on page 106).
Table 9-3: Service Line Parameters
Parameter
Description
Use Default Rule at end of rules
The default rule permits all the traffic (DSCP value between 0 and
63).If the default rule is enabled and none of the configured rules
can be applied to the traffic, the default rule is applied. If the
default rule is disabled and none of the rules matches the
packets, then the packets are discarded.
Enable DSCP spoofing
When selected, packets containing Management or Voice DSCP
value will be handled as follows:
 coming from the LAN side - dropped
 coming from the WAN side - routed to internal Management
and Voice applications
When not selected, packets containing Management or Voice
DSCP value will be handled as follows:
 coming from the LAN side - passed through
 coming from the WAN side - routed to internal Management
and Voice applications according to the destination IP address
and Port range, or forwarded to LAN according to the
destination IP.
The default is not selected (DSCP spoofing disabled)
Sel.
Select this check-box to delete this row
No.
Display the number of this rule
Port
Set the port for IP-CS/ETHCS: eth (Ethernet)
VLAN ID
VLAN Identification of the data flow in LAN. Range: 1-4096
(4096 = Untagged)
VLAN Priority
VLAN Priority of the data flow in LAN. Range: 1-8 (8=No priority)
DSCP Value
 Marking - Select this check-box to tag packets in this line for
classification. If you select this option, the Start and Stop
values should be the same (Start=Stop)
 Start /Stop - When Marking is disabled, enter a range of
values, excluding the Internal Management, internal VoIP SIP
and RTP DSCP reserved values. If the reserved values are in the
range between start and stop, outgoing packets with these
values will be dropped. 
Default: start=0, stop=63. Range: 0-63.
98
Service Line
Table 9-3: Service Line Parameters (Continued)
Parameter
Description
Incoming Multicast Duplication
Flag
Select this check-box to enable duplication of multicast (VoIP,
Data) packets.
 Use the Add or Del buttons to add a rule to the group or clear it from the group.
 Use the Up or Down buttons to change the rules priority.
 Click Apply to activate your changes.
99
Chapter 9 - EngineeringDevice Configuration
9.5
Device Configuration
Device Configuration
In the Dev Config page you save and export all the parameters currently set on the device, packed in a
file, to your PC. This file will be used as a configuration template in order to apply the same settings to
other CPEs. The format of the exported file is *.tar, which will have to be converted into an *.ipk file
format using the Auto-configuration tool (see “Configuring the Unit Using the WiMAX Modem
Application CD” on page 26).
Figure 9-5: Engineering - DEV Config.
To save and export the current device settings:
1 Set the device parameters as required in each of the application pages. Be sure to click Apply to
activate your changes.
2 In the Dev Config page click Export to save the current settings and export as a *.tar file.
3 Save the file (.*tar format) for mass CPE configuration (see “Creating a Default Configuration File” on
page 31).
100
Chapter 9 - EngineeringDM (Device Management) Settings
DM (Device Management) Settings
9.6
9.6.1
TR-069
In the DM Settings page you can set parameters for TR-069. TR-069 is a bidirectional SOAP/HTTP based
protocol that provides the communication between CPE and Auto Configuration Servers (ACS). It
includes both a safe auto configuration and the control of other CPE management functions within an
integrated framework.
Figure 9-6: Engineering - DM Settings (TR-069)
The following table describes the configurable TR-069 parameters:
Table 9-4: DM Settings - TR-069
Parameter
Description
Default
Possible Values
WAN IP
Management IP of the device
N/A
N/A
Connection Status
Displays the CPE connection
state
N/A
Connected/
disconnected
ACS URL
Enter the URL of the ACS
server
N/A
N/A
ACS UserName
Enter the username for the
ACS application
[email protected]
101
Table 9-4: DM Settings - TR-069
9.6.2
Parameter
Description
Default
Possible Values
ACS UserPassword
Enter the password for the
ACS application
quickynikynyoky
Enable Periodic
Inform
the CPE to send periodical
information messages to the
ACS
Enable
Enable/disable
Periodic Inform
Interval
Set the interval (in seconds) for
sending messages from CPE to
ACS
3600 seconds
Less than defined in
ACS
Connection Request
User Name
Enter the CPE username for
connecting with ACS.
[email protected]
Connection Request
Password
Enter the CPE password for
connecting with ACS.
quickynikynyoky
OMA Device Management Parameters
OMA DM is a protocol specified by Open Mobile Alliance (OMA) for Device Management (DM)
purposes, by the Device Management Working Group and the Data Synchronization (DS) Working
Group.
The WiMax broadband modem can be remotely managed by a remote device management server using
the OMA-DM protocol.
102
Figure 9-7: Engineering - DM Settings (OMA)
The following table describes the configurable OMA parameters:
Table 9-5: DM Settings - OMA
Parameter
Description
Default
Possible Values
WAN IP
Management IP of the device
N/A
N/A
Connection Status
Displays the CPE connection
state
N/A
Connected/
disconnected
Provisioned
Select this check-box to allow
checking if the device is
activated or not.
Disable
Enable/disable
Debug
Select this check-box to allow
debugging of the device.
Disable
Enable/disable
Server IP
IP address of the OMA server
Server Port
Port number of the OMA server
103
Parameter
Description
Server ID
The OMA server authentication
user name
Server Password
Authentication password of the
OMA server
Client ID
OMA client authentication user
name
WiMAXCPE
Up to 128
characters
Client Password
OMA client authentication
password
admin
Up to 128
characters
Model ID
The device model ID. OMA DM
client uses this ID in
communication sessions. The
server uses this ID to identify the
client.
4M-CPE6000-PRO-1D_1V
Enable Client Poll
OMA DM client polling
mechanism.
Enable
Enable Server Poll
an initial session between the
server and client.
Enable
Poll Interval
If the client polling mechanism
is enabled, the client will follow
this interval (in minutes) for
polling.
1
Poll Attempt
Enter the number of attempts
for client polling
2
WIB Try
The number of WIB (Wireless
Initial Bootstrap) re-try that the
client will try to do.
0
WIB Interval
The interval (in seconds)
between WIB actions.
180
Network Entry Delay
Time
Default
Possible Values
Up to 128
characters
0
104
Parameter
Description
Default
Server Nonce
A string used only once for the
first session until the ID and
password are set. The server
nonce is used in an OMA DM
session when a device
authenticates the server. For the
device to connect to the server,
the nonce that is stored in the
device must be the same as the
nonce that the server has.
1234
Client Initial Session
Click Initial Now to start a
contact and send a poll to the
server.
N/A
Boot Strapped
If client already has an OMA DM
profile set with the parameters
described above, this check-box
is checked automatically.
Disable
Client Nonce
Possible Values
1234
Enable/Disable
105
Chapter 9 - EngineeringFunction Settings
9.7
Function Settings
Function Settings
In this page you reserve DSCP (Differentiated Services Code Point) markings for classification settings
and set the ISP details.
Figure 9-8: Engineering - Function Settings
The following table describes the configurable Function Setting parameters:
Table 9-6: Function Settings
Parameter
Description
Default
Possible Values
DSCP (Differentiated Services Code Point)
SIP DSCP
Session Initiation Protocol
26
0-63
RTCP DSCP
Real Time Voice Control Protocol
46
0-63
RTP DSCP
Real Time Voice
46
0-63
MGMT DSCP
Management
6
0-63
ISP (Internet Service Provider)
ISP Name
Name of the internet service provider
N/A
ISP URL
URL of the internet service provider
N/A
106
Chapter 9 - EngineeringUI Settings
9.8
UI Settings
UI Settings
This window enables controlling the User Interface of the subscriber. Selecting the features in this
window disables the accessibility and availability of features for the end-user.
Figure 9-9: Engineering - UI Settings
The following table describes the configurable UI Setting parameters:
Table 9-7: UI Settings Parameters
Parameter
Description
Comments
Setup > Basic
 Operation Mode - select
this check-box to disable
the option to modify the
operation mode by the user.
Selecting both options makes the
Setup > Basic page unavailable to
the subscriber.
 Wan Mtu - select this
check-box to disable the
option to modify the WAN
Mtu by the user.
See also “Setting Basic Parameters”
on page 37
Restore To Factory - select this
check-box to disable the option
to restore parameters by the
user.
Selecting this option makes the
Setup > Restore To Factory page
unavailable to the subscriber.
Setup > Restore To Factory
107
Chapter 9 - EngineeringUI Settings
UI Settings
Table 9-7: UI Settings Parameters (Continued)
Parameter
Description
Comments
Advanced > Authentication
Authentication - select this
to set Authentication
parameters by the user.
See also “Setting Advanced
Parameters” on page 49
Advanced > Security
Security - select this check-box
to disable the option to set
Security parameters by the
user.
Advanced > Dynamic DNS
Dynamic DNS - select this
to set DDNS parameters by the
user.
Advanced > Dynamic DNS page
unavailable to the subscriber.
Advanced - Firewall
 Firewall - select this
check-box to disable the
option to set Firewall
See “Firewall” on page 55
 VPN Passthrough - select
this check-box to disable
the option to set VPN
Passthrough parameters by
the user.
Status - Certificate
Telephony
Certificate - select this
to view and set the certificates
by the user.
Status > Certificate page
unavailable to the subscriber
Telephony - select this
to view the telephony
Telephony menu item unavailable to
the subscriber
See “Certificate Status” on page 74
See “Configuring Telephony
Parameters” on page 77
108
zzAlvarion_ page
Glossary
Chapter 10 - Glossary
Glossary
100BASE-TX
IEEE 802.3u specification for 100 Mbps Fast Ethernet over two pairs of
Category 5 or better UTP cable.
10BASE-T
IEEE 802.3 specification for 10 Mbps Ethernet over two pairs of
Category 3 or better UTP cable
Advanced Encryption Standard (AES)
An strong encryption algorithm that implements symmetric key
cryptography.
Access List (ACL)
A list of MAC addresses which are allowed to access the device
Automatic Gain Control (AGC)
Automatic electronic regulation by recording devices of video and audio
signals at a predetermined rate (by electronic control).
Authentication
The process to verify the identity of a client requesting network access.
IEEE 802.11 specifies two forms of authentication: open system and
shared key.
Auto-negotiation
Signalling method allowing each node to select its optimum operational
mode (speed and duplex mode) based on the capabilities of the node to
which it is connected.
Best Effort (BE)
One of the five QoS service types defined in the IEEE 802.16 WiMAX.
Base Station
A WIMAX service provider’s equipment that is installed at a fixed
location to provide network connectivity for subscriber stations within a
defined service area.
Broadcast Key
Broadcast keys are sent to stations using 802.1X dynamic keying.
Dynamic broadcast key rotation is often used to allow the access point
to generate a random group key and periodically update all
key-management capable wireless clients.
Channel Allocation Priority Level
(CAPL)
CAPL scan list is defined by the customer provisioned list. There are
some parameters with CAPL scan: NAPID, priority and RefID.
NAPID is used to filter some BS if the NAPID is not matched.
Priority is the customer defined priority scan order. Higher priority will be
scanned first.
RefID is a result of mapping from IDs into a scan list from the channel
plan.
CINR
Carrier to Interference-plus-Noise Ratio (CINR), expressed in decibels
(dBs), is a measurement of signal effectiveness. The carrier is the desired
signal, and the interference can either be noise or co-channel
interference or both. In order for the signal receiver to be able to decode
the signal, the signal must fall into an acceptable CINR range, which
differs with the technology used (i.e., CDMA, GSM, etc.).
Clear to Send (CTS)
Signal that gives a modem permission to send data.
110
Glossary
Calling Line Identification Restriction
(CLIR)
Controls the presentation of caller identity (via CLIP-Calling Line
Identification Presentation) in GSM networks. If CLIR is enabled, the
caller’s MSC (Mobile Switching Centre) indicates this restriction to the
destination MSC. The identity is then not forwarded to the destination
mobile station.
Customer Premise Equipment (CPE)
Customer Premise Equipment: Communications equipment that resides
on the customer's premises.
Dynamic Host Configuration Protocol
A protocol used to assign IP addresses to computers on a Microsoft NT
local area network
(DHCP)
Domain Name System (DNS)
A mechanism used for translating host names for network nodes into IP
addresses.
Dynamic Domain Name System (DDNS)
A method, protocol, or network service that provides the capability for a
networked device to notify a domain name server to change the active
DNS configuration of its configured hostnames, addresses or other
information stored in DNS, in real-time.
Dynamic Host Control Protocol (DHCP)
Dynamic Host Configuration Protocol: Provides a framework for passing
configuration information to hosts on a TCP/IP network. DHCP is based
on the Bootstrap Protocol (BOOTP), adding the capability of automatic
allocation of reusable network addresses and additional configuration
options.
(“Demilitarized Zone”) DMZ
A server that acts as "neutral zone" and separates an internal network
from a public one (in order to prevent outside access to a company's
private data.
Data/Digital Signal Processor (DSP)
A system that controls voice quality
Differentiated Services Code Point
(DSCP)
A field in the header of IP packets for packet classification purposes.
Dual Tone Multi Frequency (DTMF)
Allocation of a unique tone to each button on an appliance (made up of
two frequencies - high and low) that allows a computer to recognize the
tone.
Extended Real-time POLLING SERVICE
(ertPS)
One of the five QoS service types defined in the IEEE 802.16 WiMAX.
Ethernet
A popular local area data communications network, which accepts
transmission from computers and terminals.
Ethernet Conversion Sublayer (ETH CS)
A mode in which transmitted packets contain an 802.3 header
Encryption
Data passing between the SU-A-EZ and clients can use encryption to
protect from interception and evesdropping.
Extended Service Set (ESS)
Extended Service Set: More than one wireless cell can be configured
with the same Service Set Identifier to allow mobile users can roam
between different cells with the Extended Service Set.
111
Glossary
Extensible Authentication Protocol
(EAP)
An authentication protocol used to authenticate network clients. EAP is
combined with IEEE 802.1X port authentication and a RADIUS
authentication server to provide “mutual authentication” between a
client, the access point, and the a RADIUS server
EAP-Tunneled Transport Layer Security
(EAP-TTLS)
An EAP protocol that extends TLS. (see “Transport Layer Security (TLS)”
on page 115)
File Transfer Protocol (FTP)
File Transfer Protocol: A TCP/IP protocol used for file transfer.
Fully-qualified Domain Name (FQDN)
A fully-qualified domain name (FQDN), sometimes referred to as an
absolute domain name, is a domain name that specifies its exact
location in the tree hierarchy of the Domain Name System (DNS). It
specifies all domain levels, including the top-level domain, relative to the
root domain. A fully-qualified domain name is distinguished by this
absoluteness in the name space.
Hypertext Transfer Protocol (HTTP)
Hypertext Transfer Protocol: HTTP is a standard used to transmit and
receive all data over the World Wide Web.
IDENT
An Internet protocol that helps identify the user of a particular TCP
connection.
IEEE 802.16e
A standard that provides mobile broadband wireless access using
Scalable Orthogonal Frequency Division Multiple Access (SOFDMA).
Internet Low Bitrate Codec (iLBC)
A free speech codec suitable for robust voice communication over IP. The
codec is designed for narrow band speech and results in a payload bit
rate of 13.33 kbit/s with an encoding frame length of 30 ms and 15.20
kbps with an encoding length of 20 ms. The iLBC codec enables graceful
speech quality degradation in the case of lost frames, which occurs in
connection with lost or delayed IP packets.
IP Conversion Sublayer (IP-CS)
A mode in which transmitted packets contain an 802.3 header
Itsy Package Management System
(IPKG, ipkg)
Itsy Package Management System - a lightweight package management
system designed for embedded devices.
Internet Protocol Security (IPsec)
A protocol suite for securing Internet Protocol (IP) communications by
authenticating and encrypting each IP packet of a data stream.
Jitter Buffer (JB)
A shared data area where voice packets can be collected, stored, and
sent to the voice processor in evenly spaced intervals. Variations in
packet arrival time, called jitter, can occur because of network
congestion, timing drift, or route changes. The jitter buffer, which is
located at the receiving end of the voice connection, intentionally delays
the arriving packets so that the end user experiences a clear connection
with very little sound distortion.
Local Area Network (LAN)
Local Area Network: A group of interconnected computer and support
devices.
Layer 2 Tunneling Protocol (L2TP)
A tunneling protocol used to support virtual private networks (VPNs).
112
Glossary
Media Access Control (MAC)
Media Access Control: The lower of the two sub-layers of the data link
layer defined by the IEEE. The MAC sub-layer handles access to shared
media, such as whether token passing or contention will be used.
MAC Address
Standardized data link layer address that is required for every port or
device that connects to a LAN. Other devices in the network use these
addresses to locate specific ports in the network and to create and
update routing tables and data structures. MAC addresses are 6bytes
long and are controlled by the IEEE.
Maximum Transmission Unit (MTU)
Largest size of a data packet or frame that can be sent in one complete
unit over a packet-based computer network
Multiple Input Multiple Output (MIMO)
Using multiple antennas in a Wi-Fi device to improve performance and
throughput.
MSCHAPV2 (MS-CHAP. v2)
Microsoft version of the Challenge-handshake authentication protocol,
version 2. MS-CHAPv2 provides mutual authentication between peers by
adding a peer challenge upon the Response packet and an authenticator
response on the Success packet.
Network Access Point (NAP)
Network exchange point equipped with large-scale switching facilities
and serving as a connection point between individual Internet Service
Providers
Network Address Translation (NAT)
A system for reusing IP addresses - The process of modifying network
address information in datagram packet headers, while in transit, across
a router, in order to remap a given address space into another.
Network Time Protocol (NTP)
NTP is a protocol designed to synchronize the clocks of computers over a
network. The time servers operate in a hierarchical-master-slave
configuration in order to synchronize local clocks within the subnet and
to national time standards via wire or radio.
Open Mobile Alliance (OMA)
OMA DM (device Management) is a protocol specified by Open Mobile
Alliance (OMA) for Device Management purposes, by the Device
Management Working Group and the Data Synchronization (DS)
Working Group.
Orthogonal Frequency Division
Multiplexing (OFDM)
Orthogonal Frequency Division Multiplexing: OFDM allows multiple
users to transmit in an allocated band by dividing the bandwidth into
many narrow bandwidth carriers.
Physical Layer Device (PHY)
The term used for a transceiver in Fast Ethernet and Gigabit Ethernet
systems.
113
Glossary
Plain Old Telephone Service (POTS)
Standard analog telephone service, regular telephone line without extra
enhancements
Power Over Ethernet (PoE)
Power over Ethernet: A specification for providing both power and data
to low-power network devices using a single Category 5 Ethernet cable.
PoE provides greater flexibility in the locating of Wi²s and network
devices, and significantly decreased installation costs.
Point to Point Tunneling Protocol (PPTP)
This protocol enables the transfer of data packets of TCP / IP through a
foreign network that is not based on these protocols (by marking the
packet with an address suited to the foreign network)
Quadrature Phase Shift Keying (QPSK)
A digital modulation scheme that conveys data by changing, or
modulating, the phase of a reference signal (the carrier wave).
Request for Comments (RFC)
A memorandum published by the Internet Engineering Task Force (IETF)
describing methods, behaviors, research, or innovations applicable to
the working of the Internet and Internet-connected systems.
Received signal strength indication
(RSSI)
A measurement of the power present in a received radio signal.
Real-time Transport Protocol (RTP)
The Real-time Transport Protocol (RTP) defines a standardized packet
format for delivering audio and video over the Internet.
Real-time Transport Control Protocol
(RTCP)
Real-time Transport Control Protocol (RTCP) is a sister protocol of the
Real-time Transport Protocol (RTP).
RSSI is generic radio receiver technology metric, which is usually invisible
to the user of device containing the receiver, but is directly known to
users of wireless networking of 
IEEE 802.11 protocol family.
RTCP provides out-of-band control information for an RTP flow. It
partners RTP in the delivery and packaging of multimedia data, but does
not transport any data itself. It is used periodically to transmit control
packets to participants in a streaming multimedia session. The primary
function of RTCP is to provide feedback on the quality of service being
provided by RTP.
RTS Threshold
Transmitters contending for the medium may not be aware of each
other. RTS/CTS mechanism can solve this “Hidden Node Problem”. If the
packet size is smaller than the preset RTS Threshold size, the RTS/CTS
mechanism will NOT be enabled.
Service Set Identifier (SSID)
An identifier that is attached to packets sent over the wireless LAN and
functions as a password for joining a particular radio cell; i.e., Basic
Service Set (BSS).
Session Key
Session keys are unique to each client, and are used to authenticate a
client connection, and correlate traffic passing between a specific client
and the AU-EZ.
114
Glossary
Shared Key
A shared key can be used to authenticate each client attached to a
wireless network. Shared Key authentication must be used along with
the 802.11 Wireless Equivalent Privacy algorithm.
Session Initiation Protocol (SIP)
An application-layer control (signaling) protocol for creating, modifying,
and terminating sessions with one or more participants. It can be used to
create two-party, multiparty, or multicast sessions that include Internet
telephone calls, multimedia distribution, and multimedia conferences.
Simple Network Management Protocol
(SNMP)
Simple Network Management Protocol: The application protocol in the
Internet suite of protocols which offers network management services.
Simple Network Time Protocol (SNTP)
SNTP allows a device to set its internal clock based on periodic updates
from a Network Time Protocol (NTP) server. Updates can be requested
from a specific NTP server, or can be received via broadcasts sent by NTP
servers.
Single Input Single Output (SISO)
A form of antenna technology for wireless communications in which a
single antenna at both the transmitter and at the destination (receiver)
are used.
Subscriber Station
A general term for a customer’s WIMAX terminal equipment that
provides connectivity with a base station.
Temporal Key Integrity Protocol (TKIP)
Temporal Key Integrity Protocol - a security protocol used in Wi-Fi
Protected Access (WPA). Unlike WEP, TKIP provides per-packet key
mixing, a message integrity check and a rekeying mechanism. TKIP
ensures that every data packet is sent with its own unique encryption
key.
TR-069 (Technical Report 069)
A DSL Forum technical specification entitled CPE WAN Management
Protocol (CWMP). It defines an application layer protocol for remote
management of end-user devices.
It provides the communication between CPE and Auto Configuration
Servers (ACS).
Trivial File Transfer Protocol (TFTP)
Trivial File Transfer Protocol: A TCP/IP protocol commonly used for
software downloads.
Transport Layer Security (TLS)
A cryptographic protocol that provides security for communications over
networks such as the Internet. TLS encrypts the segments of network
connections at the Transport Layer end-to-end.
Point to Point Tunneling Protocol (PPTP)
protocol that enables the transfer of data packets of TCP / IP through a
foreign network that is not based on these protocols (by marking the
packet with an address suited to the foreign network)
Unsolicited Grant Service (UGS)
One of the five QoS service types defined in the IEEE 802.16 WiMAX. It
is designed to support real-time service flows that generate fixed-size
data packets on a periodic basis, such as T1/E1 and Voice over IP without
silence suppression.
115
Glossary
User Datagram Protocol (UDP))
Protocol with no connection required between sender and receiver that
allows sending of data packets on the Internet (thought unreliable
because it cannot ensure the packets will arrive undamaged or in the
correct order)
Universal Plug and Play Internet
Gateway Device (UPnP IGD)
A set of networking protocols promulgated by the UPnP Forum. The
goals of UPnP are to allow devices to connect seamlessly and to simplify
the implementation of networks in the home and in corporate
environments for simplified installation of computer components.
UTP
Unshielded twisted-pair cable.
VoicE Activity Detection (VAD
Enables the detection of periods of silence in the audio stream so that it
is not transmitted over the network.
Wide Area Network (WAN)
Communications network intended to connect between remote local
area networks
Wired Equivalent Privacy (WEP)
Wired Equivalent Privacy: WEP is based on the use of security keys and
the popular RC4 encryption algorithm. Wireless devices without a valid
WEP key will be excluded from network traffic.
Wireless Application Protocol (WAP)
Wireless Application Protocol (WAP) is an open international standard
for application-layer network communications in a
wireless-communication environment. Most use of WAP involves
accessing the mobile web from any mobile device or phone.
Wi-Fi Protected Access (WPA)
Wi-Fi Protected Access (WPA and WPA2) is a certification program
developed to indicate compliance with the security protocol to secure
wireless computer networks. The WPA protocol implements the majority
of the IEEE 802.11i standard. WPA2 implements the mandatory
elements of the 802.11i standard.
WiFi Protected Access, Pre-Shared Key
(WPA PSK)
WPA (see above) utilizes 128-bit encryption keys and dynamic session
keys to ensure the wireless network's privacy and enterprise security.
There are two basic forms of WPA:
• WPA Enterprise (requires a Radius server)
• WPA Personal (also known as WPA-PSK)
Virtual Private Network (VPN)
A private communications network that is based on the public network
and uses information security and channeling protocol in order to
maintain security of information transferred over the general network.
116

Alvarion BMAX-6000 Telrad Manual

Transcription

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